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Microcontrollers
高效能边缘工业物联网系列
NuMicro® MA35 家族是基于 Armv8-A 架构 64 位 Arm® Cortex-A35 内核Ə并搭载一颗 Arm Cortex-M4 的微处理器˛NuMicro® MA35 家族支
持 TrustZone 安全科技Ə适用于高端工业控制˚Edge IIoT Gateway 和 HMI 等应用˛
MA35 家族提供多核心架构Ə以同时满足高效能与实时性控制的需求˛MA35 家族可支持 16 位的 DDR2/ DDR3 和 DDR3L SDRAM˛MA35
家族提供了 LQFP 和 BGA 两种封装Ə并堆栈 DDR2/ DDR3L SDRAMƏ最大容量达 512 MBƏ能够减少 PCB 层数˚面积˚以及降低电磁干扰
等Ə让系统设计与生产更加容易˛
MA35 家族也提供了丰富的功能及外设接口Ə如进阶的安全性功能Ə新唐可信安全岛 TSI (Trusted Secure Island)Ə千兆以太网˚ SDIO3.0 主
机控制器˚高速 USB2.0 控制器和 CAN FD 等用于高速连接的能力˛它同时还配备了 LCD 控制器˚2D 图形加速器˚JPEG 和 H.264 解码器
等用于图形人机接口应用˛此外Ə也提供完整的开发生态系统Ə以缩短在嵌入式 Linux 系统的开发时间˛
NuMicro® Family Arm® Cortex®-A35 MPUs
MA35D1 禺
NuMicro® MA35D1 系列为一颗异核同构的多核心微处理器Ə适用于高端 Edge IIoT Gateway˛它是基于双核 64 位 Arm® Cortex®-A35 内核Ə
执行速度可达 800 MHzƏ并搭载一颗 180 MHz Arm® Cortex®-M4 内核˛基于此高性能内核ƏMA35D1 系列有助于 Tiny AI/ML 边缘运算˛
MA35D1 系列支持 16 位 DDR2/ DDR3 和 DDR3L SDRAM˛为了简化系统设计和生产ƏMA34D1 系列提供了 LQFP 和 BGA 两种封装Ə并堆
栈 DDR2/ DDR3L SDRAMƏ最大容量达 512 MBƏ能够显着的减少 PCB 层数˚面积˚以及降低电磁干扰˛
MA35D1 系列是一个可信任的系统Ə可以满足物联网产品的安全需求˛它包括多个进阶的安全机制Ə例如新唐可信安全岛 TSIƋTrusted
Secure Islandƌ一个独立的安全硬件单元˚TrustZone˚安全启动Ƌsecure bootƌ˚篡改检测˚内建 AES˚SHA˚ECC˚RSA 和 SM2/3/4 加
解密加速器˚及一个真随机数产生器ƋTRNGƌƏ并包含密钥储存ƋKey Storeƌ和一次性存储器ƋOTP memoryƌ˛所有安全相关的操作都
在可信安全岛 TSI 中执行Ə保护具有敏感性和高价值的数据˛这些安全特性也可以满足客户在 IEC 62443 认证方面的要求˛
为满足高端 Edge IIoT Gateway 需求ƏMA35D1 系列集成 PDMAƏ其能够直接存取系统内存Ə无需 CPU 介入提升系统性能˛同时ƏMA35D1
系列提供多组进阶和高速的通讯接口Ə如千兆以太网˚SDIO3.0˚高速 USB 2.0˚CAN FD 等Ə可以应用于高端 Edge Gateway 及新能源等应
用需求˛
于人机接口应用ƏMA35D1 系列提供 LCD 显示控制器Ə分辨率可达 1920 x 1080 每秒 60 帧Ə及一个 2D 图形加速器˚JPEG 和 H.264 译码
器等Ə带来更好的图形人机接口效果和视频拨放˛
MA35D1 禺
䒓劼勻彂SPI NOR˚SPI NAND˚NAND˚SD˚eMMC˚USB
䎾欽곭㚖边缘网关˚轻量级人工智能 / 机器学习˚人机接口 & 工业控制˚新能源应用
Part No.
Package
MCP DDR
Ethernet
Temper Pins
EADC
GPIOs
MA35D16F787C
LQFP216
128 MB
���.�������.�⟃㣖緸
-
-
154
MA35D16F887C
LQFP216
256 MB
-
-
154
MA35D16F987C
LQFP216
512 MB
-
-
154
MA35D16A887C
BGA312
256 MB
ʚ
ʚ
208
MA35D16A087C
BGA364
-
ʚ
ʚ
208
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Ⱒꝶ暶䚍双核 Cortex-A35 高效能核心˚一颗 Cortex-M4 实时处理核心˚堆栈工业等级 DDR 于 LQFP 及 BGA 封装˚进阶安全性新唐可信
安全岛 TSI˚1080P 显示˚2D 图形硬体加速器˚JPEG & H.264 译码器˚二组千兆以太网˚二组高速 USB˚一组 SD3.0˚四组 CAN FD
18
�Dual
Cortex-A35
Microcontrollers
倞倞涸㸞㶩禺絡欽✵ MA35D1 䗏㢅椚㐼
Cortex-M4
Secure Channel
TSI (Trusted Secure Island)
Secure Boot
Cryptographic Engines
Memory
KeyStore
AES,SHA,ECC,RSA,
SM2/3/4,TRNG,PRNG
OTP Memory
RTIC*
Tamper Detection Pins
NuMicro® Family Arm® Cortex®-A35 MPUs
CPU
MA35D1 系列是一个可信任的系统Ə可以满足物联网产品的安全需求
新唐可信安全岛 TSI 是一个隔离的安全硬件单元Ə其运行不受 MA35D1 主系统的影响˛
ⰻ䒊㢵고㸞⸆腋䌑⸔㹊梡㢵고㸞劼ⵖ
˙ 鲱⡤䪄遤㸞
㸞⸓鵙遤傞㸤侮䚍唬叆
˙ 鸒雴㸞
溫ꥦ劼侨欰䧭㐼⠦ꥦ劼侨欰䧭㐼炽⟝⸈㺙䒸乿
˙ 蔀晚㶸⪰㸞
㸞㺙ꛬ㶸⪰♧妄䚍㶸⪰㐼炽⟝⸈㺙䒸乿偽䎁곫⽰〳霄
˙ 禺絡㸞
睕佖䒸膄〳欽✵❡ㅷ鄄灶㗁Ⰵ唬崵
客户可以轻松地利用可信安全岛 TSI 的安全环境和功能来实现保护˚检测和恢复等安全机制在物联网设备˛
Memory
Memory
Interface
Timer
Analog
Connectivity
Display
1 ʚ
2
MA35D16F887C
Cortex256
Cortex800 -40 85 154 + 256 40
A35
M4
128
Dual
-
10 18 3
3
8
-
17 2
2
6
4
2
4
2
1
1
1
1 ʚ
2
1 ʚ
H.264
decoder
24
2
ʚ
JPEG
bit
decoder
-
10 18 3
3
8
-
17 2
TFT-LCD Interface
Core
Cortex256
Cortex800 -40 85 154 + 512 40
MA35D16F987C A35
M4
128
Dual
2
6
4
2
4
2
1
1
1
H.264
decoder
24
ʚ
JPEG
bit
decoder
H.264
decoder
24
ʚ JPEG
bit
decoder
MA35D16A887C
Cortex256
Cortex800 -40 85 208 + 256 40
A35
M4
128
Dual
-
12 18 3
3
8
8
17 2
2
6
4
2
4
2
1
1
-
2 ʚ
H.264
decoder
24
2
ʚ
JPEG
bit
decoder
MA35D16A087C
Cortex256
Cortex800 -40 85 208 +
A35
M4
128
Dual
ʚ
12 18 3
3
8
8
17 2
2
6
4
2
4
2
1
1
-
2 ʚ
2
-
40
H.264
decoder
24
ʚ JPEG
bit
decoder
ʚ
-
LQFP
x 2022Q4
216-EP
ʚ
-
LQFP
x 2023Q1
216-EP
ʚ
-
LQFP
x 2022Q4
216-EP
ʚ
2
BGA
312
15
NKx 2022Q4 HMA
35D1S1
15
ʚ
2
BGA
364
14
x 2022Q4
14
Mass Production
1
Package Size
1
Package Type
1
Tamper Detection Pin
2
Video Codec
4
2D Graphics Engine
2
Tool
Trusted Secure Island (TSI)
Camera Interface
External Bus Interface (EBI)
Ethernet 10/100/1000 Mbps
Ethernet 10/100 Mbps
USB HS Device/ Host
USB HS Host
Secure Digital Host Controller (SDHC)
CAN FD
I²S
SPI/ I²S
I²C
Quad SPI (QSPI)
ISO-7816-3
ADC (12-bit)
Enhanced ADC (EADC)(12-bit)
4
Low-power UART (LPUART)
Enhanced Capture (ECAP)
Quadrature Encoder Interface (QEI)
6
Timer/PWM
2
SDRAM Interface
17 2
DDR(MB)
-
PDMA (ch)
8
GPIO
3
SRAM (KB)
10 18 3
2SHUDWLQJ�7HPSHUDWXUH��PLQ��ʝ�
Enhanced PWM (EPWM) (16-bit)
2SHUDWLQJ�7HPSHUDWXUH��PD[��ʝ�
-
Operating Frequency (MHz)
Cortex256
Cortex800 -40 85 154 + 128 40
A35
M4
128
Dual
Real-Time Processor (RTP)
MA35D16F787C
Part No.
TSI Security Package Status
EVB
System
24
-
24
24
24
24
24
NKIMA
35D1A1
NKIMA
35D1A1
-
19
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NuMicro®䗏 䱾 ⵖ 㐼
倞 NuMicro ® Arm ® Cortex ®-M4 䗏䱾ⵖ㐼㹻停
新唐 NuMicro® Arm® Cortex®-M4 微控制器家族运行于 72 MHz 至 200 MHzƏ提供高达 90 DMIPS 至 240 DMIPS 的高性能系统设计Ə在
M480 系列Ə当系统由内置 Flash 运行时Ə其动态功耗更可低至�����ѥ$�0+]˛
新唐 NuMicro® Arm® Cortex®-M4 微控制器家族由以下产品系列组成Ɲ
M460 系列Ɲ200 MHz 工作主频˚多达 1024 KB 双区块 (Dual bank) Flash 内存˚多达 512 KB SRAM˚支持安全启动 (secure boot)˚硬件密
钥管理 (key store)˚音频 PLL (programmable audio PLL)˚HyperBus 接口 (HyperBus interface)˚PSIO 接口 (programmable serial I/O)˚
EBI 接口 (external bus interface)Ə以及支持 XIP 就地执行功能 (eXecute-In-Place) 的 SPI Master 接口
M463 子系列 – 两组 CAN FD˚高速 USB OTG 带片上 PHY
M467 子系列 – 10/100 兆以太网 MAC˚硬件加解密引擎˚四组 CAN FD˚高速 USB OTG 带片上 PHY˚全速 USB OTG 带片上 PHY
M480 系列Ɲ192 MHz 工作主频˚多达 512 KB 双区块 (Dual bank) Flash˚多达 160 KB SRAM˚EBI 接口 (external bus interface)Ə以及支
Arm® Cortex®-M4
䗏
䱾
ⵖ
㐼
持 XIP 就地执行功能 (eXecute-In-Place) 的 SPI Master 接口
M481 子系列 – 基础型
M482 子系列 – 全速 USB OTG 带片上 PHY
M483 子系列 – 二组或三组 CAN 2.0B˚高速 USB OTG 带片上 PHY˚全速 USB OTG 带片上 PHY
M484 子系列 – 高速 USB OTG 带片上 PHY˚全速 USB OTG 带片上 PHY
M485 子系列 – 硬件加解密引擎˚高速 USB OTG 带片上 PHY˚全速 USB OTG 带片上 PHY
M487 子系列 – 10/100 兆以太网 MAC˚硬件加解密引擎˚两组 CAN 2.0B˚高速 USB OTG 带片上 PHY˚全速 USB OTG 带片上 PHY
M471 系列Ɲ72/120 MHz 工作主频˚多达 512 KB 双区块 (Dual bank) Flash˚多达 64 KB SRAM˚内建独立 32 Kbytes data FlashƏ支持宽
管脚间距封装Ə以及提供经认证的 IEC60730-1 Class B Software Test Library (STL) 软件库
M471 V/K 子系列 – 2 Msps˚12 位˚高达 24 通道的 SAR ADC 跟硬件 Customize IR receiver 接口
、
M471 M/R1/S 子系列 – 1 Msps˚12 位˚高达 16 通道的 SAR ADC˚全速 USB Host/Device 带片上 PHY
M451 系列Ɲ72 MHz 工作主频˚多达 256 KB Flash˚多达 32 KB SRAM˚Quad-SPI 接口
M451 子系列 – 基础型
M460 禺
M452 子系列 – 全速 USB OTG 带片上 PHY
M453 子系列 – 全速 USB OTG 带片上 PHY˚CAN 2.0B 接口
M460 禺
NuMicro® M460 系列是基于 Arm® Cortex®-M4F 核心的 32 位微控制器系列Ə支持 DSP 指令集与 FPU 浮点运算单元˛目标 IoT 网关˚工业控
制˚电信与数据中心等市场应用˛M460 系列支持高达 200 MHz 工作频率˚高达 1024 KB 双区块 Flash 内存˚高达 512 KB SRAM˚1.7V 到
3.6V 宽工作电压˚-40° C 到 +85° C/+105° C 宽工作温度˚多种封装选择以及高抗干扰特性 ESD HBM 2 kV 跟 EFT 4.4 kV˛
湡叻䎾欽IoT 市场如网关Ə消费类电子市场如扫地机器人Ə电竞市场如鼠标˚键盘Ə工控市场如 CAN 转接盒
20
�高速 USB
CAN FD
硬件加解密
以太网
ʚ
ʚ
ʚ
ʚ
ʚ
ʚ
ʚ
AES
Ⱒꝶ暶䚍硬件密钥管理 (Key Store)˚CAN FD 接口˚音频 PLL (programmable audio PLL)˚PSIO 接口 (programmable serial I/O)˚
10/100 兆以太网 MAC˚安全启动 (secure boot)˚硬件加解密引擎˚TRNG 随机数产生器˚PRNG 随机数产生器˚高速 USB OTG˚全速
USB OTG˚Intel 8080 EBI 接口˚HyperBus 接口˚3 组 12 位 5 Msps ADC˚4 组模拟比较器˚4 组 EQEI 接口˚摄像头接口˚ICP/ IAP/ ISP
刻录
System
ʚ 28 2
4 10 3 2 5 1 4 1 2 4 2 8 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
ʚ 28 2
4 10 3 2 5 1 4 1 2 4 2 8 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
Cortex200 1.7 3.6 -40 85 146 8 1024 512 32 4
M4
ʚ 28 2
4 10 3 2 5 1 4 1 2 4 2 8 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
8 1024 512 32 4
ʚ 20 2
4
3 2 5 1 4 1 2 4 2 4 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
Cortex200 1.7 3.6 -40 105 100 8 1024 512 32 4
M4
ʚ 28 2
4 10 3 2 5 1 4 1 2 4 2 8 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
ʚ 28 2
4 10 3 2 5 1 4 1 2 4 2 8 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
ʚ 28 2
4 10 3 2 5 1 4 1 2 4 2 8 1 1 1 ʚ ʚ ʚ ʚ
ʚ
ʚ 6x8
Cortex200 1.7 3.6 -40 105 100 8 256 128 16 4
M4
ʚ 16 -
2
8
1 2 5 1 4
-
- 2 1 -
- 1 -
ʚ ʚ ʚ ʚ AES
- 6x8
8 256 128 16 4
ʚ 16 -
2
8
1 2 5 1 4
-
- 2 1 -
- 1 -
ʚ ʚ ʚ ʚ AES
- 6x8
8 256 128 16 4
ʚ 12 -
2
8
1 2 5 1 4
-
- 2 1 -
- 1 -
ʚ ʚ ʚ ʚ AES
- 6x8
8 256 128 16 4
ʚ 12 -
2
8
1 2 5 1 4
-
- 2 1 -
- 1 -
ʚ ʚ ʚ ʚ AES
- 6x8
Cortex200 1.7 3.6 -40 105 44
M4
Cortex200 1.7 3.6 -40 105 114 8 1024 512 32 4
M4
Cortex200 1.7 3.6 -40 105 146 8 1024 512 32 4
M4
Cortex200 1.7 3.6 -40 105 44
M4
Cortex200 1.7 3.6 -40 105 33
M4
Cortex200 1.7 3.6 -40 105 33
M4
9
ʚ
NKNLGM467HJ 64S
ʚ
NKNLGM467HJ 128K
ʚ
NKNLGM467HJ 144J
ʚ
NKNLGM467HJ 176H
ʚ
NKNLGM467HJ 64S
ʚ
NKNLGM467HJ 128K
ʚ
NKNLGM467HJ 144J
ʚ
NKNLGM467HJ 176H
ʚ
NKNLGM463KG 128K
ʚ
NKNLGM463KG 64S
LQFP
7x7
48
ʚ
NKNLGM463KG 48L
5x5
ʚ
NKNLGM463KG 48Y
LQFP
14x14
128
LQFP
20x20
144
LQFP
24x24
176
LQFP
7x7
64
LQFP
14x14
128
LQFP
20x20
144
LQFP
24x24
176
LQFP
14x14
128
LQFP
7x7
64
QFN
48
M480 禺
䗏
䱾
ⵖ
㐼
M480 禺
Cortex200 1.7 3.6 -40 85 100 8 1024 512 32 4
M4
LQFP
7x7
64
Arm® Cortex®-M4
ʚ 6x8
MP Programmer
ʚ
EVB
3 2 5 1 4 1 2 4 2 4 1 1 1 ʚ ʚ ʚ ʚ
Tool
Status
Mass Production
4
Package Size
ʚ 20 2
Package Type
Keypad Interface
Crypto
Camera Interface
8 1024 512 32 4
Cortex200 1.7 3.6 -40 85 114 8 1024 512 32 4
M4
9
Package
Security Crypto Display
Key Store
XOM
TRNG
EBI
EMAC
USB HS OTG
USB FS OTG
PSIO
SDHC
CAN FD
I²S
SPIM
SPI/I²S
USCI
I²C
QSPI
ISO-7816
LPUART
ACMP
M463YGCAE
Connectivity
DAC (12-bit)
M463LGCAE
PDMA (ch)
M463SGCAE
Timer Analog
EADC (12-bit)
RTC
Timer (32-bit)
M463KGCAE
SRAM (KB)
M467H2JHAE
44
APROM Flash (KB)
M467J2JHAE
GPIO
M467K2JHAE
Cortex200 1.7 3.6 -40 85
M4
LDROM Flash (KB)
M467S2JHAE
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
M467HJHAN
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
M467JJHAN
Operating Voltage (min) (V)
M467KJHAN
Operating Voltage (max) (V)
Core
M467SJHAN
Operating Frequency (MHz)
Part No.
Memory
NuMicro®䗏 䱾 ⵖ 㐼
M463 CAN FD/USB HS 系列
全速 USB
倞
M460 系列
M467 Ethernet/Crypto 系列
NuMicro® M480 系列是基于 Arm® Cortex®-M4F 核心的 32 位微控制器系列Ə支持 DSP 指令集与 FPU 浮点运算单元˛目标 IoT 网关˚工业控
制˚电信与数据中心等市场应用˛M480 系列支持高达 192 MHz 工作频率˚高达 512 KB 双区块 Flash 内存˚高达 160 KB SRAM˚1.8V 到
3.6V 宽工作电压˚-40° C 到 +105° C 宽工作温度˚多种封装选择以及高抗干扰特性 ESD HBM 2 kV 跟 EFT 4.4 kV˛
湡叻䎾欽IoT 市场如串口服务器Ə工控市场如储能系统Ə消费类电子市场如卷标打印机Ə电竞市场如游戏手柄
M480 系列
全速 USB
高速 USB
CAN 2.0B
ʚ
硬件加解密
以太网
M481 基础型 系列
M482 USB FS 系列
ʚ
M483 CAN 2.0B 系列
ʚ
ʚ
M484 USB HS 系列
ʚ
ʚ
M485 Crypto 系列
ʚ
ʚ
M487 Ethernet 系列
ʚ
ʚ
ʚ
ʚ
ʚ
ʚ
21
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口˚高速 USB OTG˚全速 USB OTG˚Intel 8080 EBI 接口˚高达 2 组 12 位 5 Msps ADC˚2 组模拟比较器˚2 组 EQEI 接口˚摄像头接口˚
ICP/ IAP/ ISP 刻录
System
M487SIDAE
M481LGCAE
2
-
-
-
-
-
-
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
-
2
-
-
-
-
-
-
4 512 160 16 4 12 12 ʚ 10 2 2 6 1 3 2 3
-
1
-
-
-
-
-
-
Cortex- 192 1.8 3.6 -40 105 100 4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
M4
-
2
-
1
-
-
-
-
4 512 160 16 4 12 12 ʚ 12 2 2 6 1 3 2 3
-
2
-
1
-
-
-
-
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
-
2
-
1
-
-
-
-
Cortex- 192 1.8 3.6 -40 105 41
M4
Cortex- 192 1.8 3.6 -40 105 52
M4
Cortex- 192 1.8 3.6 -40 105 26
M4
1
-
1
-
-
-
-
Cortex- 192 1.8 3.6 -40 105 100 4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4 2 2
M4
-
1
1
-
-
-
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4 2 2
-
-
1
-
-
-
Cortex- 192 1.8 3.6 -40 105 44
M4
4 512 160 16 4 12 12 ʚ 10 2 2 6 1 3 2 3
-
Cortex- 192 1.8 3.6 -40 105 100 4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
M4
-
2
-
1
1
-
-
-
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
-
2
-
-
1
-
-
-
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
-
2
-
1
1
-
-
-
Cortex- 192 1.8 3.6 -40 105 100 4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
M4
-
2
-
1
1
-
ʚ
ʚ
4 512 160 16 4 12 12 ʚ 12 2 2 6 1 3 2 3
-
2
-
1
-
-
ʚ
ʚ
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4
-
2
-
-
1
-
ʚ
ʚ
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 3 2
1
-
1
-
-
-
ʚ
Cortex- 192 1.8 3.6 -40 105 44
M4
Cortex- 192 1.8 3.6 -40 105 44
M4
Cortex- 192 1.8 3.6 -40 105 41
M4
Cortex- 192 1.8 3.6 -40 105 44
M4
Cortex- 192 1.8 3.6 -40 105 40
M4
Cortex- 192 1.8 3.6 -40 105 114 4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4 2
M4
2
-
1
1
1
ʚ
ʚ
Cortex- 192 1.8 3.6 -40 105 100 4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4 2
M4
2
-
1
1 1
ʚ
ʚ
4 512 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4 2
2
-
-
1 1
ʚ
ʚ
Cortex- 192 1.8 3.6 -40 105 44
M4
Cortex- 192 1.8 3.6 -40 105 41
M4
4 256 128 16 4 12 12 ʚ 12 1 2 8 2 3
- 2 -
1
-
-
-
-
ʚ
ʚ
4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3
- 3 -
1 ʚ
-
-
-
ʚ
ʚ
192 1.8 3.6 -40 105 52 4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3 - 3 - 1 ʚ
M481SGCAE2A CortexM4
-
-
-
ʚ
ʚ
M481ZGCAE
-
-
-
ʚ
ʚ
M481SGCAE
M482KGCAE
M482LGCAE
M482SGCAE
M482ZGCAE
M483KGCAE
22
-
Cortex- 192 1.8 3.6 -40 105 52
M4
Cortex- 192 1.8 3.6 -40 105 26
M4
4 256 128 16 4 12 12 ʚ 10 1 2 8 2 3
- 2 -
1
-
Cortex- 192 1.8 3.6 -40 105 100 4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3
M4
- 3 -
1 ʚ
1
-
-
ʚ
ʚ
4 256 128 16 4 12 12 ʚ 12 1 2 8 2 3
- 2 -
1
-
1
-
-
ʚ
ʚ
4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3
- 3 -
1 ʚ
1
-
-
ʚ
ʚ
4 256 128 16 4 12 12 ʚ 10 1 2 8 2 3
- 2 -
1
-
1
-
-
ʚ
ʚ
Cortex- 192 1.8 3.6 -40 105 41
M4
Cortex- 192 1.8 3.6 -40 105 52
M4
Cortex- 192 1.8 3.6 -40 105 26
M4
Cortex- 192 1.8 3.6 -40 105 100 4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3
M4
- 3 3 1 ʚ 1
-
-
ʚ
ʚ
192 1.8 3.6 -40 105 100 4 256 128 16 4 12 12 ʚ 24 1 2 8 2 3 - 3 3 1 ʚ 1
M483KGCAE2A CortexM4
-
-
ʚ
ʚ
M483SGCAE
-
-
ʚ
ʚ
Cortex- 192 1.8 3.6 -40 105 52
M4
4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3
- 3 2 1 ʚ 1
192 1.8 3.6 -40 105 52
M483SGCAE2A CortexM4
4 256 128 16 4 12 12 ʚ 16 1 2 8 2 3
- 3 2 1 ʚ 1
-
-
ʚ
M481LE8AE
Cortex- 192 1.8 3.6 -40 105 41
M4
4 128 64 16 4 12 12 ʚ 12 1 2 8 2 3
- 2 -
1 ʚ
-
-
-
M481SE8AE
Cortex- 192 1.8 3.6 -40 105 52
M4
4 128 64 16 4 12 12 ʚ 16 1 2 8 2 3
- 3 -
1 ʚ
-
-
M481ZE8AE
Cortex- 192 1.8 3.6 -40 105 26
M4
4 128 64 16 4 12 12 ʚ 10 1 2 8 2 3
- 2 -
1 ʚ
-
M482LE8AE
Cortex- 192 1.8 3.6 -40 105 41
M4
4 128 64 16 4 12 12 ʚ 12 1 2 8 2 3
- 2 -
1 ʚ
1
LQFP 7x7
48
MP Programmer
M487KIDAE
4 512 160 16 4 12 12 ʚ 12 2 2 6 1 3 2 3
LQFP 20x20
144
ʚ
NKM487KM
NLG144J
ʚ
LQFP 7x7
64
ʚ
5x5
ʚ
QFN
33
LQFP 14x14
128
LQFP 7x7
48
ʚ
ʚ
LQFP 7x7
64
ʚ
5x5
ʚ
QFN
33
LQFP 14x14
128
LQFP 7x7
64
LQFP 14x14
128
LQFP 7x7
64
LQFP 7x7
64
LQFP 14x14
128
LQFP 7x7
48
ʚ
ʚ
ʚ
ʚ
ʚ
ʚ
ʚ
LQFP 7x7
64
ʚ
5x5
ʚ
QFN
48
LQFP 20x20
144
LQFP 14x14
128
LQFP 7x7
64
LQFP 7x7
48
LQFP 7x7
64
ʚ
ʚ
ʚ
ʚ
ʚ
LQFP 7x7
64
ʚ
5x5
ʚ
QFN
33
LQFP 14x14
128
LQFP 7x7
48
ʚ
ʚ
LQFP 7x7
64
ʚ
5x5
ʚ
QFN
33
LQFP 14x14
128
LQFP 14x14
128
LQFP 7x7
64
Tool
EVB
M487JIDAE
ʚ
Status
Mass Production
M480 禺
M485YIDAE
ʚ
Package Size
M485SIDAE
1 1 1
Package
Package Type
M485LIDAE
Crypto
M485KIDAE
Cortex- 192 1.8 3.6 -40 105 26
M4
PRNG
M484SIDAE2U
Cortex- 192 1.8 3.6 -40 105 52
M4
-
EMAC
M484SIDAE
Cortex- 192 1.8 3.6 -40 85 114 4 2560 160 16 4 12 12 ʚ 16 2 2 6 1 3 2 4 2 2
M4
Cortex- 192 1.8 3.6 -40 105 41
M4
Security Crypto
USB FS OTG
M484KIDAE
Connectivity
USB HS OTG
M483SIDAE
Analog
Camera Interface
SDHC
CAN
SPI/ I²S
USCI
I²C
QSPI
LPUART
ACMP
DAC (12-bit)
EADC (12-bit)
RTC
EPWM (16-bit)
M483KIDAE
Timer
BPWM (16-bit)
Timer (32-bit)
PDMA (ch)
M482ZIDAE
SRAM (KB)
M482SIDAE
APROM Flash (KB)
M482LIDAE
GPIO
M482KIDAE
LDROM Flash (KB)
M481ZIDAE
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
M481SIDAE
Memory
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Arm® Cortex®-M4
䗏
䱾
ⵖ
㐼
M481LIDAE
Operating Voltage (min) (V)
Core
M487KMCAN
Operating Voltage (max) (V)
Part No.
Operating Frequency (MHz)
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍10/100 兆以太网 MAC˚安全启动 (secure boot)˚硬件加解密引擎˚TRNG 随机数产生器˚PRNG 随机数产生器˚CAN 2.0B 接
ʚ
ʚ
ʚ
ʚ
LQFP 7x7
64
ʚ
ʚ
ʚ
LQFP 7x7
48
ʚ
-
ʚ
ʚ
LQFP 7x7
64
ʚ
-
-
ʚ
ʚ
QFN
33
5x5
ʚ
-
-
ʚ
ʚ
LQFP 7x7
48
ʚ
NKNLGBEDM487 48L
NKNLGBEDM487 64S
NKNLGBEDM487 32Z
NKNLGBEDM487 128K
NKNLGBEDM487 48L
NKNLGBEDM487 64S
NKNLGBEDM487 32Z
NKNLGBEDM487 128K
NKNLGBEDM487 64S
NKNLGBEDM487 128K
NKNLGBEDM487 64S
NKNLGBEDM487 64S
NKNLGBEDM487 128K
NKNLGBEDM487 48L
NKNLGBEDM487 64S
NKNLGBEDM487 48Y
NKNLGBEDM487 144J
NKNLGBEDM487 128K
NKNLGBEDM487 64S
NKM483KG
NLG48L
NKM483KG
NLG64S
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NKM483KG
NLG64S
NLG32Z
NLG128K
NLG48L
NLG64S
NLG32Z
NLG128K
NLG128K
NLG64S
NLG64S
NLG48L
NLG64S
NLG32Z
NLG48L
�倞
M471 禺
跟高速光模塊市場˛M471 系列支持高达 72/120 MHz 工作频率˚高达 512 KB 双区块 Flash 内存˚高达 64 KB SRAM˚2.5V 到 5.5V 宽工作
电压˚-40° C 到 +105° C 宽工作温度˚宽管脚间距封装选择以及高抗干扰特性 ESD HBM 8 kV 跟 EFT 4.4 kV˛
湡叻䎾欽洗衣机˚冰箱˚空调以及各类家电产品
Ⱒꝶ暶䚍独立 32 Kbytes 的数据存储区˚电压可调接口 (VAI)˚16+16 字节 UART FIFO 用于 TX/RX˚1.8 Msps ADC˚全速 USB 从设备 /
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® M471 系列是基于 Arm® Cortex®-M4F 核心的 32 位微控制器系列Ə支持 DSP 指令集与 FPU 浮点运算单元˛目标智能家电应用市场
主设备带片上 PHY˚EBI 接口支持 Intel 8080 屏˚ICP/ ISP/ IAP 刻录
System
Timer
Analog
Connectivity
Security
-
ʚ
M471VI8AE Cortex-M4 120 2.5 5.5 -40 105 91 4 512 ʚ
32
64 6 4
- 12 12 ʚ
23
1
2
-
6
2 2
-
ʚ
M471CI8AE Cortex-M4 120 2.5 5.5 -40 105 91 4 512 ʚ
32
64 6 4
- 12 12 ʚ
24
1
2
-
6
2 2 -
ʚ
PWM (16-bit)
SRAM (KB)
M471R1E6AE Cortex-M4 72 2.5 5.5 -40 105 49 4 128 - &RQÀJXUDEOH 32 8 4 12 -
-
ʚ 16
-
-
4
-
2 1 1
-
M471SE6AE Cortex-M4 72 2.5 5.5 -40 105 49 4 128 - &RQÀJXUDEOH 32 8 4 12 -
-
ʚ 16
-
-
4
-
2 1 1
-
M471MD6AE Cortex-M4 72 2.5 5.5 -40 105 35 4 64
-
ʚ 10
-
-
3
-
2 1
-
- &RQÀJXUDEOH 32 8 4 10 -
-
LQFP
128
14x14
ʚ
14x14
WLCSP
4.5x4.5
100
LQFP
100
LQFP
64
LQFP
64
LQFP
44
NKM471KI
ʚ
NKM471KI
NLG128K
ʚ
NKM471KI
NLG100C
14x14
ʚ
NKNGM471R1 M471R1
7x7
ʚ
10x10
ʚ
NKM471R1
NKM471R1
NGM471S
NGM471M
电子产品市场˛M451 系列支持高达 72 MHz 工作频率˚高达 256 KB Flash 内存˚高达 32 KB SRAM˚2.5V 到 5.5V 宽工作电压˚-40° C 到
M451 系列
全速 USB
CAN 2.0B
M451 基础型 系列
M4521 USB FS 系列
ʚ
M452 USB FS 系列
ʚ
M453 CAN 2.0B 系列
ʚ
M471 禺 / M451 禺
NuMicro® M451 系列是基于 Arm® Cortex®-M4F 核心的 32 位微控制器系列Ə支持 DSP 指令集与 FPU 浮点运算单元˛目标工页控制与消费类
䎾欽곭㚖䊨⚌䱾ⵖ䋑㖞㥶兰腋歏㺂嶋餩碫歏㶩❡ㅷ䋑㖞㥶瑠孞幢ⲙ劼
䗏
䱾
ⵖ
㐼
NLG100V
M451 禺
+105° C 宽工作温度˚多种封装选择以及高抗干扰特性 ESD HBM 6 kV 跟 EFT 4.4 kV˛
Arm® Cortex®-M4
2 2
MP Programmer
6
EVB
-
Mass Production
2
Tool
Status
Package Size
1
Package
Package Type
UART
LPUART
24
PRNG
ACMP
USB FS Device/ Host
SPI/ I²S
I²C
DAC (8-bit)
- 12 12 ʚ
RTC
64 6 4
Timer (32-bit)
PDMA (ch)
32
GPIO
M471KI8AE Cortex-M4 120 2.5 5.5 -40 105 119 4 512 ʚ
Core
EADC (12-bit)
EPWM (16-bit)
BPWM (16-bit)
Data Flash (KB)
Dual-Bank Flash
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
ʚ
23
�倞
System
Timer
Analog
Package
Tool
Status
Package Size
Mass Production
EVB
MP Programmer
7x7
ʚ
NT-M451V
NG-M451L
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M451L
NG-M451L
Package Type
- ʚ LQFP48
-
RTC
-
-
PWM (16-bit)
Timer (32-bit)
PDMA (ch)
-
4 12 ʚ 10 1 2 4 1 1 2 1
SRAM (KB)
4 12 ʚ 10 1 2 4 1 1 2 1
72 &RQÀJXUDEOH 16 8
Data Flash (KB)
40 &RQÀJXUDEOH 16 8
Cortex-M4 72 2.5 5.5 -40 105 39 ʚ 4
Cortex-M4 72 2.5 5.5 -40 105 39 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ
8
1 2 3 1 1 2 2
-
-
- ʚ LQFP48
7x7
ʚ
NT-M451V
Cortex-M4 72 2.5 5.5 -40 105 39 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ
8
1 2 3 1 1 2 2
-
-
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M451L
11 1 2 4 1 1 2 1
-
-
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M451ML
11 1 2 4 1 1 2 1
-
-
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M451ML
9
1 2 4 1 1 2 2
-
-
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M451ML
9
1 2 3 1 1 2 2
-
-
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M451ML
M451MSC3AE Cortex-M4 72 2.5 5.5 -40 105 55 - 4 40 &RQÀJXUDEOH 16 8 4 12 - 13 1 2 4 1 1 2 1 -
-
- ʚ LQFP64
7x7
ʚ
NT-M451V
NG-M451MS
7x7
M451LG6AE
M451MLC3AE Cortex-M4 72 2.5 5.5 -40 105 42 - 4 40 &RQÀJXUDEOH 16 8 4 12 M451MLD3AE Cortex-M4 72 2.5 5.5 -40 105 42 - 4 72 &RQÀJXUDEOH 16 8 4 12 M451MLE6AE Cortex-M4 72 2.5 5.5 -40 105 42 - 4 128 &RQÀJXUDEOH 32 12 4 12 M451MLG6AE Cortex-M4 72 2.5 5.5 -40 105 42 - 4 256 &RQÀJXUDEOH 32 12 4 12 -
M451MSD3AE Cortex-M4 72 2.5 5.5 -40 105 55 - 4 72 &RQÀJXUDEOH 16 8 4 12 - 13 1 2 4 1 1 2 1 M451RC3AE
M451RD3AE
M451RE6AE
M451RG6AE
M451VE6AE
M451VG6AE
-
- ʚ LQFP64
ʚ
NT-M451V
NG-M451MS
Cortex-M4 72 2.5 5.5 -40 105 53 ʚ 4
40 &RQÀJXUDEOH 16 8
4 12 ʚ 16 1 2 4 1 1 2 1
-
-
- ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M451R
Cortex-M4 72 2.5 5.5 -40 105 53 ʚ 4
72 &RQÀJXUDEOH 16 8
4 12 ʚ 16 1 2 4 1 1 2 1
-
-
- ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M451R
Cortex-M4 72 2.5 5.5 -40 105 53 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ 12 1 2 4 1 1 2 2
-
-
- ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M451R
Cortex-M4 72 2.5 5.5 -40 105 53 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ 12 1 2 4 1 1 2 2
-
-
- ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M451R
Cortex-M4 72 2.5 5.5 -40 105 85 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ 16 1 2 4 1 1 2 2
-
-
- ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M451V
Cortex-M4 72 2.5 5.5 -40 105 85 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ 16 1 2 4 1 1 2 2
-
-
- ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M451V
M4521LE6AE Cortex-M4 72 2.5 5.5 -40 105 35 ʚ 4 128 &RQÀJXUDEOH 32 8 4 10 ʚ 10 M4521SE6AE Cortex-M4 72 2.5 5.5 -40 105 49 ʚ 4 128 &RQÀJXUDEOH 32 8 4 12 ʚ 16 M452LC3AE
M452LD3AE
M452LE6AE
- 3 1 1 2 1 - 1 - ʚ LQFP48
7x7
ʚ
NT-M4521S
NG-M453L
- 4 1 1 2 1 - 1 - ʚ LQFP64
7x7
ʚ
NT-M4521S
NG-M453S
Cortex-M4 72 2.5 5.5 -40 105 35 ʚ 4
40 &RQÀJXUDEOH 16 8
4 10 ʚ 10 1 2 4 1 1 2 1
- 1 - ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M453L
Cortex-M4 72 2.5 5.5 -40 105 35 ʚ 4
72 &RQÀJXUDEOH 16 8
4 10 ʚ 10 1 2 4 1 1 2 1
- 1 - ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M453L
NG-M453L
M451 禺
Cortex-M4 72 2.5 5.5 -40 105 34 ʚ 4 128 &RQÀJXUDEOH 32 12 4 10 ʚ
8
1 2 3 1 1 2 1
-
- 1 ʚ LQFP48
7x7
ʚ
NT-M451V
Cortex-M4 72 2.5 5.5 -40 105 34 ʚ 4 256 &RQÀJXUDEOH 32 12 4 10 ʚ
8
1 2 3 1 1 2 1
-
- 1 ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M453L
- 1 - ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M453R
Cortex-M4 72 2.5 5.5 -40 105 48 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ 12 1 2 4 1 1 2 2
-
- 1 ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M453R
Cortex-M4 72 2.5 5.5 -40 105 48 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ 12 1 2 4 1 1 2 2
-
- 1 ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M453R
Cortex-M4 72 2.5 5.5 -40 105 80 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ 16 1 2 4 1 1 2 2
-
- 1 ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M453V
M452VG6AE
Cortex-M4 72 2.5 5.5 -40 105 80 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ 16 1 2 4 1 1 2 2
-
- 1 ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M453V
M453LC3AE
Cortex-M4 72 2.5 5.5 -40 105 35 ʚ 4
40 &RQÀJXUDEOH 16 8
4 10 ʚ 10 1 2 4 1 1 2 1 1 1
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M453L
Cortex-M4 72 2.5 5.5 -40 105 35 ʚ 4
72 &RQÀJXUDEOH 16 8
4 10 ʚ 10 1 2 4 1 1 2 1 1 1
- ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M453L
NG-M453L
M452LG6AE
M452RD3AE
M452RE6AE
M452RG6AE
M452VE6AE
M453LD3AE
M453LE6AE
M453LG6AE
M453RD3AE
M453RE6AE
M453RG6AE
M453VD3AE
M453VE6AE
M453VG6AE
24
Connectivity
EBI
USB FS OTG
USB FS Device/ Host
CAN
SPI/ I²S
I²C
QSPI
ISO-7816-3
UART
ACMP
DAC (12-bit)
EADC (12-bit)
APROM Flash (KB)
LDROM Flash (KB)
VBAT
GPIO
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Arm® Cortex®-M4
䗏
䱾
ⵖ
㐼
M451LE6AE
Operating Voltage (min) (V)
M451LD3AE
Memory
Cortex-M4 72 2.5 5.5 -40 105 39 ʚ 4
Core
M451LC3AE
Operating Voltage (max) (V)
Part No.
Operating Frequency (MHz)
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍 〳ꂂ縨涸侨䰘㶸⪰⼓歏⾓〳靈䱺〡㶶蒜欽✵鸠➢霃㢊 ⚺霃㢊
䌄晚♳䱺〡佅䭰㾓
Cortex-M4 72 2.5 5.5 -40 105 49 ʚ 4
72 &RQÀJXUDEOH 16 8
4 12 ʚ 16 1 2 4 1 1 2 1
Cortex-M4 72 2.5 5.5 -40 105 34 ʚ 4 128 &RQÀJXUDEOH 32 12 4 10 ʚ
8
1 2 3 1 1 2 2 1
- 1 ʚ LQFP48
7x7
ʚ
NT-M451V
Cortex-M4 72 2.5 5.5 -40 105 34 ʚ 4 256 &RQÀJXUDEOH 32 12 4 10 ʚ
8
1 2 3 1 1 2 2 1
- 1 ʚ LQFP48
7x7
ʚ
NT-M451V
NG-M453L
- ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M453R
Cortex-M4 72 2.5 5.5 -40 105 48 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ 12 1 2 4 1 1 2 2 1
- 1 ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M453R
Cortex-M4 72 2.5 5.5 -40 105 48 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ 12 1 2 4 1 1 2 2 1
- 1 ʚ LQFP64 10x10
ʚ
NT-M451V
NG-M453R
- ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M453V
Cortex-M4 72 2.5 5.5 -40 105 80 ʚ 4 128 &RQÀJXUDEOH 32 12 4 12 ʚ 16 1 2 4 1 1 2 2 1
- 1 ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M453V
Cortex-M4 72 2.5 5.5 -40 105 80 ʚ 4 256 &RQÀJXUDEOH 32 12 4 12 ʚ 16 1 2 4 1 1 2 2 1
- 1 ʚ LQFP100 14x14
ʚ
NT-M451V
NG-M453V
Cortex-M4 72 2.5 5.5 -40 105 49 ʚ 4
Cortex-M4 72 2.5 5.5 -40 105 72 ʚ 4
72 &RQÀJXUDEOH 16 8
72 &RQÀJXUDEOH 16 8
4 12 ʚ 16 1 2 4 1 1 2 1 1 1
4 12 ʚ 16 1 2 4 1 1 2 1 1 1
�倞
NUC505 禺
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® NUC505 系列基于 Arm® Cortex®-M4F 内核Ə支持 DSP 指令集且集成浮点运算单元 (FPU)˛
动态功耗可低至 479 µA/MHzƏ待机电流可低至 7 µA˛
NUC505 系列内置 Audio PLL 与支持麦克风 / 线路输入及耳机输出的立体声 24 位 Sigma-Delta 音讯编译码器˛
䎾欽곭㚖热敏打印机˚GPS 定位器˚无线麦克风˚报警扬声器等
Ⱒꝶ暶䚍128 位密钥用于代码保护˚64+64 字节 UART FIFO 用于 TX/RX˚2 组 USB˚Audio PLL˚24 位音讯编译码器
System
Memory
Timer
Analog
Connectivity
Package
Status
Tool
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
GPIO
VBAT
APROM Flash (KB)
Data Flash (KB)
Timer (32-bit)
PWM (16-bit)
RTC
ADC (12-bit)
Audio Codec
UART
SPI
I²C
I²S
SDHC
USB FS Host
USB HS Device
Package Type
Package Size
Mass Production
EVB
MP Programmer
-40
85
25
ʚ
2048
128
4
4
ʚ
5
-
3
2
2
1
1
1
1
LQFP48
7x7
ʚ
NT-NUC505Y
-
Cortex-M4 100
3
3.6
-40
85
18
ʚ
512
128
4
-
ʚ
5
1
2
1
2
1
-
-
1
LQFP48
7x7
ʚ
NT-NUC505Y
-
NUC505DS13Y Cortex-M4 100
3
3.6
-40
85
35
ʚ
2048
128
4
4
ʚ
8
1
3
2
2
1
1
1
1
LQFP64
7x7
ʚ
NT-NUC505Y
-
Core
NUC505DL13Y Cortex-M4 100
NUC505DLA
NUC505DSA
Cortex-M4 100
3
3.6
-40
85
34
ʚ
512
128
4
4
ʚ
5
1
3
2
2
1
1
1
1
LQFP64
7x7
ʚ
NT-NUC505Y
-
NUC505YLA
Cortex-M4 100
3
3.6
-40
85
18
ʚ
512
128
4
-
ʚ
5
1
2
1
2
1
-
-
1
QFN48
7x7
ʚ
NT-NUC505Y
-
NUC505YLA2Y Cortex-M4 100
3
3.6
-40
85
25
ʚ
512
128
4
4
ʚ
5
-
3
2
3
1
1
1
1
QFN48
7x7
ʚ
NT-NUC505Y
-
NUC505YO13Y Cortex-M4 100
3
3.6
-40
85
52
ʚ
2048
128
4
4
ʚ
8
1
3
2
2
1
1
1
1
QFN88
10x10
ʚ
NT-NUC505Y
-
KM1M4B 系列 MCU 是采用 Arm® Cortex® M4F 的 32 位 MCUƏ在高速处理能力和低功耗之间有一个很好的平衡˛
嵌入了高速 / 高精度的模拟功能和辅助功能Ə可以满足电机控制的要求˛通过使用 RWW(Read While Write) 闪存Ə访问 EEPROM 变得更加
有效˛它们可以为需要高效率˚超低功耗和小型化的电源管理系统作出贡献˛
Connectivity
ADC(12-bit)
Core speed (MHz)
Flash (KB)
SRAM (KB)
Data Flash
I/O
Timer (16-bit)
Power control PWM
Clock synchronous
UART
SPI
I²C
Channel
Unit
DAC (8-bit)
DAC (10-bit)
Comparator
VGA
Flash/SRAM ECC
CRC
Package
120
136
16
8
37
14
8
4
4
4
4
10
3
6
1
4
2
v
v
LQFP48 (7x7)
KM1M4BF54G 120
136
16
8
51
14
8
7
7
7
7
13
3
6
1
4
2
v
v
LQFP64 (10x10)
KM1M4BF54K
120
264
16
32
51
14
8
7
7
7
7
13
3
6
1
4
2
v
v
LQFP64 (10x10)
KM1M4BF53G 120
136
16
8
65
14
8
7
7
7
7
18
3
6
1
4
2
v
v
LQFP80 (12x12)
KM1M4BF53K
120
264
16
32
65
14
8
7
7
7
7
18
3
6
1
4
2
v
v
LQFP80 (12x12)
KM1M4BF52G 120
136
16
8
85
14
8
7
7
7
7
23
3
6
1
4
2
v
v
LQFP100 (14x14)
KM1M4BF52K
264
16
32
85
14
8
7
7
7
7
23
3
6
1
4
2
v
v
LQFP100 (14x14)
Part No.
KM1M4BF05G
120
䗏
䱾
ⵖ
㐼
NUC505 禺N / KM1M4B 」곸㐼䱾ⵖ禺
KM1M4B 」곸㐼䱾ⵖ禺
Arm® Cortex®-M4
Operating Voltage (min) (V)
3.6
Operating Frequency (MHz)
3
Part No.
25
�倞
NuMicro®䗏 䱾 ⵖ 㐼
Arm® Cortex®-M4
䗏
䱾
ⵖ
㐼
ISD®94100 禺
新唐特别针对音频应用开发 32-bit 的 Cortex-M4F 一系列整合型 MCUƏ除了有内建 Flash 及 SRAM 记忆体Ə并富涵多元的 Audio 及控制
介面 RTC, PDMA, UART, SPI, I2C, PWM, GPIO, SAR ADC, USB, Cortex-M4F 支援 DSP 指令集及浮点运算的微处理器Ə主频可以跑到
200MHz˛并支援多元的周边介面如 UART, SPI,I2C,I2S,USB 支持 Full Speed 1.1 并相容于 2.0. 目前内建优质的降噪及回声消除演算法Ə
或高阶语音辨识Ə用以处理通话或语音辨识解决方案˛
Part No.
CPU
APROM
SRAM
I/O
Timer
ADC
RTC
ISD94113A
Cortex®-M4
200 MHz
256 KB
128 KB
57
4
12-bit
SAR
ISD94113B
Cortex®-M4
200 MHz
Basic Feature
256 KB
128 KB
57
4
ISD94113S
Cortex®-M4
200 MHz
256 KB
128 KB
57
ISD94123B
Cortex®-M4
200 MHz
Basic Feature
512 KB
128 KB
ISD94123S
Cortex®-M4
200 MHz
512 KB
ISD94124A
Cortex®-M4
200 MHz
ISD94124B
Developemnt Tools
Other
Package
MIC.
Speaker
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS,
ISD-DMK_94100_DM VAD
LQFP64
QFN48
12-bit
SAR
ʚ
-
-
ISD-DMK_94100_AM
USB 2.0 FS
ISD-DMK_94100_DM
LQFP64
QFN48
4
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
57
4
12-bit
SAR
ʚ
-
-
128 KB
41
4
12-bit
SAR
ʚ
4x DMIC
512 KB
192 KB
57
4
12-bit
SAR
ʚ
Cortex®-M4
200 MHz, Basic
fetaure
512 KB
192 KB
57
4
12-bit
SAR
ISD94124C
Cortex®-M4
200 MHz
512 KB
192 KB
57
4
ISD94124D
Cortex®-M4
200 MHz
512 KB
192 KB
57
ISD94124P
Cortex®-M4
200 MHz
512 KB
192 KB
ISD94124S
Cortex®-M4
200 MHz
512 KB
ISD941A24A
ISD®94100 禺
26
Audio
ISD941A24S
Cortex®-M4
200MHz
Stereo CODEC
MCP
Cortex®-M4
200MHz
Stereo CODEC
MCP
ISD-DMK_94100_AM USB 2.0 FS,
LQFP64
ISD-DMK_94100_DM VAD, AEC+NR QFN48
ISD-DMK_94100_AM
USB 2.0 FS
ISD-DMK_94100_DM
LQFP64
QFN48
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS,
ISD-DMK_94100_DM VAD, AEC+NR
QFN48
4x DMIC
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS
ISD-DMK_94100_DM VAD
LQFP64
QFN48
ʚ
-
-
ISD-DMK_94100_AM
USB 2.0 FS
ISD-DMK_94100_DM
LQFP64
QFN48
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS,
ISD-DMK_94100_DM VAD, VR
LQFP64
4
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS,
ISD-DMK_94100_DM VAD, BF+NR
LQFP64
57
4
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS,
VAD, VR,
ISD-DMK_94100_DM BF+NR
LQFP64
192 KB
57
4
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DMK_94100_AM USB 2.0 FS,
LQFP64
ISD-DMK_94100_DM VAD, AEC+NR
512 KB
192 KB
29
4
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DEMO941A24
USB 2.0 FS,
VAD
512 KB
192 KB
29
4
12-bit
SAR
ʚ
4x DMIC
DPWM/I2S
to ext. amp
ISD-DEMO941A24
USB 2.0 FS,
LQFP64
VAD, AEC+NR
LQFP64
�倞
ISD®94100 禺䒓〄䊨Ⱘ
Board Name
Supported
Devices
NU-NULINKISD
NU-NULINKISD
ISD-NU-LINK
ISD9100 Series
ISD91200 Series
ISD91500 Series
ISD94100 Series
• ISD-NU-LINK
• USB Dongle
• Support ICP (In-Circuit Programming)
NM-I94100_AM
NM-I94100_AM
ISD-DMK_94100_
AM
ISD94100 Series
• NL-ISD94124A
• NP-I94124_AM
• Speaker
• Evaluation and Demo Kit for ISD94100 Series
• Connect with Analog Microphone Adaptor
NM-I94100_DM
NM-I94100_DM
ISD-DMK_94100_
DM
ISD94100 Series
• NL-ISD94124A
• NP-I94124_DM
• Speaker
• Evaluation and Demo Kit for ISD94100 Series
• Connect with Digital Microphone Adaptor
NL-ISD94124A
NL-ISD94124A
EVB-I94124
ISD94100 Series
• EVB-I94124
• Evaluation and Demo Kit for ISD94100 Series
NP-I94124_AM
NP-I94124_AM
EVB-I94124ADINAU85L40B_V1.0
ISD94100 Series
• EVB-I94124ADINAU85L40B_V1.0
• Analog Microphone Adaptor for NL-ISD94124A
NP-I94124_DM
NP-I94124_DM
EVB-I94124ADINAU85L40B_V1.2
ISD94100 Series
• EVB-I94124ADINAU85L40B_V1.2
• Analog / Digital Microphone Adaptor for NLISD94124A
NV-ISD94100
DEMO-I94100NAU88C22
ISD94100 Series
• DEMO-I94100NAU88C22
• ISD94100 Demo Board with audio CODEC
(NAU88C22) on board
• Connect to PC via ISD NU-LINK for
programming and evaluation
NV-ISD94100
Content
Description
NT-I941A24UC
ISD941A24_UC_
HEADSET
ISD941A24_UC_
HEADSET
ISD941A24 Series
ISD941A24_UC_
HEADSET
• UC_HEADSET Demo Board for ISD941A24
• Connect to PC via NU-LINK for Programming
and Evaluation
NV-I941A24SQI
ISDDEMO941A24SQI
ISDDEMO941A24SQI
ISD941A24SQI
ISDDEMO941A24SQI
•Demo Board for ISD941A24SQI
NV-ISD941A24
NV-ISD941A24
ISD-DEMO941A24
ISD941A24
• ISDDEMO941A24
• Demo Board for ISD941A24
Picture
Arm® Cortex®-M4
Part No.
NuMicro®䗏 䱾 ⵖ 㐼
Ordering No.
䗏
䱾
ⵖ
㐼
ISD®94100 禺
27
�倞
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® M23 㹻停
– 专注于物联网安全的 TrustZone ® 技术微控制器系列
以 Cortex®-M23 为内核˚内建 Arm®v8-M 架构之 TrustZone® 技术
新唐科技的 NuMicro® M23 家族Ə是以 Arm® Cortex®-M23 为核心Ə内建 Arm®v8-M 架构之 TrustZone® 技术的微控制器产品˛其中Ə
NuMicro® M2351 系列为该家族中的首发产品Ə以其安全性能与电源管理技术Ə实现物联网安全应用˛
藉由 TrustZone® 技术的导入Ə微控制器中的内存˚周边控制单元可被设置成安全区 (Secure world) 与非安全区 (Non-secure world)Ə以便捷
的方式实现数据保护˚固件更新与程序操作的安全性˛此外Ə受惠于 Armv8-M 架构的 TrustZone 技术Ə其安全区与非安全区的切换设计以硬
件来实现Ə不仅能加速转换Ə功率消耗也更有效率˛
Microcontroller
Non-secure World
Arm® Cortex®-M23
䗏
䱾
ⵖ
㐼
支持 Arm® PSA 的新唐安全微控制器平台 (NuSMP)
由 Arm® 所推出的平台安全架构 (PSA) 是一完整的系统Ə从威胁模型分析˚安全性分析Ə到硬件与固件的架构规范以及开源的固件参考设计˛
PSA 是 Arm® 对物联网生态系统安全所提出的解决方案Ə其提供了基本设计原则与更有效益的方式Ə以构建更安全的物联网装置˛
为了使开发者能更加便捷的将物联网安全技术实现于创新开发之中Ə新唐科技开发了可支持 Arm® PSA 的˥新唐安全微控制器平台 (Nuvoton
Secure Microcontroller Platform, NuSMP) ˦˛NuSMP 是一系列混和硬件与软件的安全技术Ə用于满足通用及物联网安全之微控制器系列的
安全要求˛开发人员可轻松的透过 NuSMP 技术于 M2351 系列上实现具安全性的设计Ə包含 Trusted Boot (Root of Trust)˚安全的 OTA 固件
Secure Processing Environment
Non-secure Processing Environment
Device Security Power Management
(NuBL32)
Application
Software
Secure Partition Manager
(NuBL2)
Firmware Update (OTA)
(NuBL2)
Trusted Boot (NuBL2)
Hardware
M2351 禺
Software
更新与软件下载˚非安全区的电源管理与 PC 端的加解密软件工具˛
TrustedZoon®
for Arm®v8-M
Secure Bootloader
(NuBL1)
Crypto Engine
TRNG
NuMicro® M2351 禺
物联网时代的兴起使人们对物理世界与数字系统整合的认知随之提升Ə在日常生活的数字化带来效率提升和经济效益
的同时Ə系统开发者也面临了新的挑战˛由于安全性和低功耗为物联网应用的关键考虑Ə新唐科技开发了 NuMicro®
M2351 系列Ə以满足物联网应用于低功耗运行的同时执行安全连网的开发设计需求˛
NuMicro® M2351 系列微控制器系列以 Arm® Cortex®-M23 为内核˚内建 Arm®v8-M 架构和 TrustZone® 技术Ə可将
传统的固件安全性提升至更完整的软件安全防护˛
M2351 系列微控制器运行频率可高达 64 MHzƏ内建 512 KB 双区块 ( Dual Bank ) 架构闪存 ( Flash )Ə可支持 OTA ( Over-The-Air ) 固件升级Ə
并内建 96 KB SRAM˛此外ƏM2351 系列提供高性能外设接口Ə如 UARTƏSPIƏI2CƏGPIOƏUSB 和 ISO 7816-3˛其安全性与多元的功耗
管理模式使得物联网应用的创新更臻便捷˛
28
�倞
Secure Bootloader
Support Arm® PSA
and TBSA-M
Secure Microcontroller Platform
NuMicro®䗏 䱾 ⵖ 㐼
Cryptographic
Hardware Accelerators
TRNG
eXecute-Olny Memory
Flash Memory Lock
Key-Protection ROM
TrustZone®
for Armv8-M
Cortex®-M23
Anti-Tampering for
system level
arm
䎾欽곭㚖智能门锁˚指纹智能卡˚智能家居˚智能楼宇˚无线感测装置˚智能表计˚移动式数据采集仪˚数字货币身分认证与冷钱包
Low Power
工作主频Ɲ64 MHz
工作电压Ɲ1.8V ~ 3.6V˚全 GPIO 支援 5V 输入
工作温度Ɲ-40° C ~ 105° C
支持 Arm® 平台安全架构 (PSA) 与微控制器可信基础系统架构 (TBSA-M)˚物联网电源管理技术
System
Memory
Timer
Connectivity
Analog
Security Crypto
Package
1
1
1
ʚ
ʚ
-
ʚ
M2351KIAAE
Cortex64 1.7 3.6 -40 105 107 ʚ
M23
ʚ
4 512
-
96 16 4 12 12 16 2
2
6
3
1
3
2
4
1
1
1
ʚ
ʚ
6
ʚ
LQFP
128
Cortex64 1.7 3.6 -40 85
M23
EADC
PDMA (ch)
Timer/ PWM
VBAT
ETM
Core
ʚ
NKBEDM
2351
-
14x14
ʚ
NKBEDM
2351
NLG128KX
WLCSP
3.2x3.2
49
45
-
ʚ
4 512 4096 96 16 4 12 12 16 2
2
6
3
-
3
2
4
1
1
1
ʚ
ʚ
1
ʚ
LQFP
64
7x7
ʚ
NKM2351
SF
NLG64S
M2351SIAAE
Cortex64 1.7 3.6 -40 105 51
M23
-
ʚ
4 512
-
96 16 4 12 12 16 2
2
6
3
1
3
2
4
1
1
1
ʚ
ʚ
1
ʚ
LQFP
64
7x7
ʚ
NKBEDM
2351
NLG64S
M2351ZIAAE
Cortex64 1.7 3.6 -40 105 25
M23
-
-
4 512
-
96 16 4 12 11 10 2
2
6
3
1
3
2
3
1
1
1
-
ʚ
-
ʚ
QFN
33
5x5
ʚ
NKBEDM
2351
NLG32Z
M2351SFSIAAE
M2351 禺
3
䗏
䱾
ⵖ
㐼
MP Programmer
2
Tool
EVB
3
Mass Production
1
Package Size
AES/DES/3DS/SHA/ECC
3
Package Type
TRNG
6
EBI
USB FS OTG
SDHC
CAN
SPI/ I²S
USCI
I²C
QSPI
ISO-7816-3
LPUART
ACMP
DAC (12-bit)
2
EPWM (16-bit)
96 16 4 12 12 12 2
BPWM (16-bit)
-
SRAM (KB)
4 512
Secure Flash (KB)
-
LDROM Flash (KB)
-
APROM Flash (KB)
Cortex64 1.7 3.6 -40 105 41
M23
GPIO
Tamper
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
M2351CIAAE
Part No.
Status
Arm® Cortex®-M23
Ⱒꝶ暶䚍Arm®v8-M 架构之 TrustZone® 技术˚8 个安全区 / 非安全区内存保护单元˚硬件加密加速器˚CRC 计算单元˚至多 6 个破坏侦测引脚˚
29
�倞
NuMicro®䗏 䱾 ⵖ 㐼
M2354 禺
新唐科技的 NuMicro® M2354 系列是基于 Arm® Cortex®-M23 内核带 TrustZone 功能的微控制器产品˛M2354 系列增加了对于密码硬件运
行时之侧信道攻击 (Side-Channel Attack) 与电压与时钟突波故障注入 (Fault Injection) 攻击防护的保障˛该系列提供了微控制器平台安全硬
件支持 (Product Lifecycle Management)Ə包含了调适接口的管理 (Debug Port Management)Ə产品生命周期管理功能 (Product Lifecycle
Management)Ə固件版本计数器Ə安全密钥存储区的物理层级安全防护等Ə将能满足未来物联网装置对于高安全性与低功耗的设计需求Ə能
抵御对装置内存数据˚信息传递与内部软件程序的恶意攻击Ə轻松实现“代码安全ą˚Ą数据安全ą˚Ą通信安全”等物联网装置安全需求的
三大主要目标˛
M2354 系列主频可运行最高到 96 MHzƏ内建 1 Mega Bytes 双区块 (Dual Bank) 架构闪存 (Flash) Ə可支持安全空中固件升级 (Secure FOTA
Update)˛
Arm® Cortex®-M23
䗏
䱾
ⵖ
㐼
M2354 禺
䎾欽곭㚖智能门锁˚指纹智能卡˚智能家居˚智能楼宇˚无线感测装置˚智能表计˚移动式数据采集仪˚数字货币身分认证与冷钱包˚移
动支付设备
Ⱒꝶ暶䚍物理安全防护密钥存储区˚最高可支持 8x40 段式显示屏˚Armv8-M 架构之 TrustZone 技术˚八个安全区 / 非安全区内存保护
单元˚硬件加密加速器˚CRC 计算单元˚至多六个破坏侦测引脚˚支持 Arm PSA 安全平台架构Ə可达到安全等级第二级甚至第三级 (PSA
Certified Level 2/ Level 3)
System
Connectivity
Security Crypto Display
ʚ
ʚ
8x40
-
- 16 1024 256 16 4 12 12 11
2
6
3
1
3
2
3
1
1
1
ʚ
ʚ
1
ʚ
ʚ
-
ʚ 16 1024 256 16 4 12 12 16
2
6
3
1
3
2
4
1
1
1
ʚ
ʚ
1
ʚ
ʚ
PDMA (ch)
Timer/ PWM
Cortex96 1.7 3.6 -40 105 50
M23
VBAT
ETM
Cortex96 1.7 3.6 -40 105 40
M23
LQFP128 14x14
ʚ
-
LQFP48
7x7
ʚ
8X13
LQFP64
7x7
ʚ
MP Programmer
6
Tool
EVB
ʚ
Status
Mass Production
ʚ
Package Size
1
Package
Package Type
ComSeg LCD
1
Key Store
Tamper
TRNG
EBI
USB FS OTG
SDHC
CAN
SPI/ I²S
USCI
I²C
QSPI
ISO-7816-3
LPUART
1
EADC
4
DAC (12-bit)
2
EPWM (16-bit)
3
BPWM (16-bit)
1
SRAM (KB)
3
APROM Flash (KB)
6
LDROM Flash (KB)
2
GPIO
AES/ECC/SRA/ SM2/3/4
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
30
Operating Frequency (MHz)
M2354SJFAE
Analog
ʚ 16 1024 256 16 4 12 12 16
Core
M2354LJFAE
Timer
Cortex96 1.7 3.6 -40 105 106 ʚ
M23
Part No.
M2354KJFAE
Memory
NKNLGBEDM2354 128KX
NKNLGBEDM2354 48L
NKNLGBEDM2354 64S
�倞
M2L31 禺
至 512 K 字节的 ReRAMƏ以及 40 至 168 K 字节的 SRAM˛工作电压范围为 1.71V 至 3.6VƏ工作温度范围广泛Ə从 -40° C 至 105° C˛此
系列提供多种封装选择Ə并具有卓越的高抗干扰特性Ə可抵御 4 kV 的 ESDƋ静电放电ƌHBM 和 4.4 kV 的 EFTƋ电快速变动ƌ˛512 K 字节
ReRAM 的双银行设计支持通过空中固件更新ƋFOTAƌ过程进行固件升级˛
湡叻䎾欽곭㚖智能家居 / 智能家居设备˚工业控制 / 工业自动化˚智能城市˚物联网设备˚安全警报系统˚个人电脑外围设备˚电池管理系统˛
⚺銴暶挿提供最多三个可编程增益放大器ƋPGAƌƏ三个模拟比较器ƋACMPƌƏ24 通道 12 位 3.6MSPS 模数转换器ƋADCƌƏ两个 12
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro M2L31 系列基于 Arm Cortex-M23 核心Ə采用 Armv8-M 架构Ə具备单周期硬件乘法器 / 除法器˛其运行频率可达 72 MHzƏ内置 64
位 1MSPS 数模转换器ƋDACƌƏ24 通道高速脉宽调制ƋPWMƌƏUSB 2.0 Type-C Power Delivery 3.1 控制器Ə硬件加速的加密模块Ə包括
AESƏ伪随机数生成器ƋPRNGƌ和真随机数生成器ƋTRNGƌ˛超低功耗Ə包括每 MHz 60 微安Ƌ正常运行ƌƏ每 MHz 33 微安Ƌ空闲状态ƌƏ
2.4 微安Ƌ关机ƏRTC 开启Ə保留 RAMƌƏ以及 0.5 微安Ƌ关机ƏRTC 关闭Ə保留 RAMƌ˛
Timer
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
2
2 24 2
3
3 18 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
8 512 168 16 4 12 12 ʚ
2
2 20 2
3
3 17 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
53
8 256 168 16 4 12 12 ʚ
2
2 20 2
3
3 17 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
41
8 512 168 16 4 12 12 ʚ
2
2 16 2
3
3 12 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
41
8 256 168 16 4 12 12 ʚ
2
2 16 2
3
3 12 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
41
8 512 168 16 4 12 12 ʚ
2
2 16 2
3
3 12 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
Cortex72 1.71 3.6 -40 105 ʚ
M2L31LGDAE
M23
41
8 256 168 16 4 12 12 ʚ
2
2 16 2
3
3 12 ʚ
1
8
2
4
2
4
ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
M2L31YIDAE
41
8
512 168 16 4 12 12 ʚ
2
2 16 2
3
3 12 ʚ V 1
8
2 4 2 ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
72 1.71 3.6 -40 105 ʚ
41
8 256 168 16 4 12 12 ʚ
2
2 16 2
3
3 12 ʚ V 1
8
2 4 2 ʚ
ʚ
2
ʚ
ʚ
ʚ
ʚ
3
ʚ
Cortex72 1.71 3.6 -40 105 ʚ
M23
53
8 256 40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
53
8 128 40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
41
8 256 40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
41
8 128 40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
41
8
40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
41
8 256 40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
41
8 128 40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
41
8
40 10 4 12 -
ʚ
2
2 16 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
26
8 128 40 10 4 12 -
ʚ
2
2 10 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
26
8
64
40 10 4 12 -
ʚ
2
2 10 1
3
2
-
ʚ V 1
6
2 2 1 ʚ
-
1
ʚ
-
-
ʚ
3
ʚ
18
8
64
40 10 4 12 -
ʚ
2
2
2
1
-
ʚ V 1
5
2 2
-
1
ʚ
-
-
ʚ
3
ʚ
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex-
M2L31YGDAE M23
M2L31SG4AE
M2L31SE4AE
M2L31LG4AE
M2L31LE4AE
M2L31LD4AE
M2L31YG4AE
M2L31YE4AE
M2L31YD4AE
M2L31ZE4AE
M2L31ZD4AE
M2L31XD4AE
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
Cortex72 1.71 3.6 -40 105 ʚ
M23
64
64
6
-
-
ʚ
LQFP
128
NKM2L31KI
NLG128KX
LQFP
64
NKM2L31KI
NLG64S
LQFP
48
NKM2L31KI
LQFP
128
LQFP
64
LQFP
48
QFN
48
QFN
48
QFN
48
QFN
48
NKM2L31KI
NKM2L31KI
NKM2L31KI
NLG128KX
NLG64S
-
NKM2L31KI
NLG48Y
NKM2L31KI
NLG48Y
NKM2L31KI
NKM2L31KI
䗏
䱾
ⵖ
㐼
NLG48Y
M2L31 禺
53
MP Programmer
2
EVB
AES
8
Package Type
Tamper
1
XOM
True Random Number Generator (TRNG)
Pseudorandom Number Generator (PRNG)
Cortex72 1.71 3.6 -40 105 ʚ
M23
3 18 ʚ
Touch Key
Cortex72 1.71 3.6 -40 105 ʚ
M23
3
Power delivery
CAN FD
EBI
USB FS OTG
SPI/ I²S
USCI
I²C
LIN
UART
LPUART
Internal Voltage Reference
Cortex72 1.71 3.6 -40 105 ʚ
M23
EADC
Cortex72 1.71 3.6 -40 105 ʚ
M23
2 24 2
PGA
ACMP
DAC (12-bit)
Cortex72 1.71 3.6 -40 105 ʚ
M23
Tool
Crypto Package
QEI
Cortex72 1.71 3.6 -40 105 ʚ 109 8 256 168 16 4 12 12 ʚ
M23
Security
2
ECAP
Cortex72 1.71 3.6 -40 105 ʚ 109 8 512 168 16 4 12 12 ʚ
M23
Connectivity
Analog
RTC
PWM (16-bit)
EPWM (16-bit)
PDMA (ch)
Timer/ PWM
SRAM (KB)
APROM Flash (KB)
GPIO
M2L31LIDAE
LDROM Flash (KB)
M2L31CIDAE
VBAT
M2L31CGDAE
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
M2L31SGDAE
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
M2L31SIDAE
Operating Voltage (min) (V)
M2L31KGDAE
Operating Voltage (max) (V)
Core
M2L31KIDAE
Operating Frequency (MHz)
Part No.
Memory
Arm® Cortex®-M23
System
NLG48Y
LQFP6
NKNLG4
M2L31SG 64S
LQFP
64
NKNLGM2L32SG 64S
LQFP
48
NKNLGM2L33SG 48Y
LQFP
48
NKNLGM2L35SG 48Y
LQFP
48
NKNLGM2L34SG 48Y
QFN
48
NKNLGM2L36SG 48Y
QFN
48
NKNLGM2L38SG 48Y
QFN
33
NKNLGM2L40SG 33Z
QFN
48
QFN
32
NKNLGM2L37SG 48Y
NKNLGM2L39SG 32Z
WLCSP
NK25
M2L41SG
31
�倞
NuMicro®䗏 䱾 ⵖ 㐼
M251/M252 禺
NuMicro® M251/M252 系列为超低功耗微控制器Ə基于 Arm® Cortex®-M23 内核和 Armv8-M 架构Ə主频支持 48 MHzƏ支持 32 ~ 256
Kbytes 内嵌 Flash 内存以及 8 ~ 32 Kbytes SRAM 内存Ə支持宽工作电压 1.8V ~ 5.5VƏ4 K 字节独立 Flash 作为在线系统编程ƋIn-System
Programmingƌ用途˛NuMicro® M251/M252 系列支持宽工作电压 1.75V ~ 5.5V 与����ʝ�到����ʝ�的操作温度Ə集成具有模拟多样通讯协
定Ƌ诸如 UART˚SPI˚I2C …等ƌ的可编程串行接口ƋPSIOƌ与多样通讯协议如电压调整接口ƋVAIƌ˚USB 2.0 全速设备Ƌ无须外挂晶振ƌ˛
䎾欽곭㚖适合于智能家庭与家电Ə工业控制 / 工业自动化Ə智能城市˚物联网节点装置˚安全警报监控系统˚电池供电的设备Ə行动支付智
能读卡机˚穿戴式装置˚可携式医疗装置˚GPS 数据采集器˚无线通讯模块ƋZigbee˚LoRa ... 等ƌ˚电子货架标签等˛
Ⱒꝶ暶䚍最高支持 8 路可模拟多样通讯协定的可编程串列接口 (PSIO)˚超低功耗技术 : 138 µA/MHz
System
Memory
Timer
Connectivity
Security
Package
Status
- 2 1 1 1 2 1 -
-
-
ʚ
-
TSSOP28 4.4x9.7
ʚ
M251FC2AE Cortex-M23 48 1.75 5.5 -40 105 15 4 32
8
5 4
-
-
7
-
- 2 1 1 1 2 1 -
-
-
ʚ
-
TSSOP20 4.4x6.5
ʚ
M251KE3AE Cortex-M23 48 1.75 5.5 -40 105 85 4 128 16 8 4 12 12
ʚ
16 -
2 3 1 1 1 2 3 1 8
-
ʚ
ʚ
LQFP128 14x14
ʚ
M251KG6AE Cortex-M23 48 1.75 5.5 -40 105 85 4 256 32 8 4 12 12
ʚ
16 1 2 3 1 1 1 2 3 1 8
-
ʚ
ʚ
LQFP128 14x14
ʚ
M251LC2AE Cortex-M23 48 1.75 5.5 -40 105 41 4 32 12 5 4 12 12
ʚ
12 -
2 3 1 1 1 2 2 1 4
-
ʚ
-
LQFP48
7x7
ʚ
M251LD2AE Cortex-M23 48 1.75 5.5 -40 105 41 4 64 12 5 4 12 12
ʚ
12 -
2 3 1 1 1 2 2 1 4
-
ʚ
-
LQFP48
7x7
ʚ
M251LE3AE
Cortex-M23 48 1.75 5.5 -40 105 41 4 128 16 8 4 12 12
ʚ
12 -
2 3 1 1 1 2 3 1 8
-
ʚ
-
LQFP48
7x7
ʚ
M251LG6AE Cortex-M23 48 1.75 5.5 -40 105 41 4 256 32 8 4 12 12
ʚ
12 1 2 3 1 1 1 2 3 1 8
-
ʚ
-
LQFP48
7x7
ʚ
M251SC2AE Cortex-M23 48 1.75 5.5 -40 105 54 4 32 12 5 4 12 12
ʚ
16 -
2 3 1 1 1 2 2 1 4
-
ʚ
ʚ
LQFP64
7x7
ʚ
M251SD2AE Cortex-M23 48 1.75 5.5 -40 105 54 4 64 12 5 4 12 12
ʚ
16 -
2 3 1 1 1 2 2 1 4
-
ʚ
ʚ
LQFP64
7x7
ʚ
M251SE3AE Cortex-M23 48 1.75 5.5 -40 105 53 4 128 16 8 4 12 12
ʚ
16 -
2 3 1 1 1 2 3 1 8
-
ʚ
ʚ
LQFP64
7x7
ʚ
M251SG6AE Cortex-M23 48 1.75 5.5 -40 105 53 4 256 32 8 4 12 12
ʚ
16 1 2 3 1 1 1 2 3 1 8
-
ʚ
ʚ
LQFP64
7x7
ʚ
M251ZC2AE Cortex-M23 48 1.75 5.5 -40 105 26 4 32
ʚ
10 -
- 2 1 1 1 2 1 -
-
-
ʚ
-
QFN33
5x5
ʚ
ʚ
10 -
2 3 1 1 1 2 2 1 4
-
ʚ
-
QFN33
5x5
ʚ
Timer/ PWM
PDMA (ch)
8
9
5 4 12
-
MP Programmer
-
Tool
EVB
Mass Production
9
Package Size
-
Package Type
XOM
Tamper
USB FS Device Crystal-less
PSIO
SPI/ I²S
USCI
I²C
QSPI
ISO-7816-3
LIN
UART
ACMP
DAC (12-bit)
RTC
EADC
-
PWM (16-bit)
5 4 11
SRAM (KB)
8
GPIO
M251 / M252 禺
M251EC2AE Cortex-M23 48 1.75 5.5 -40 105 23 4 32
M251ZD2AE Cortex-M23 48 1.75 5.5 -40 105 26 4 64 12 5 4 12 12
32
Analog
BPWM (16-bit)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Core
NuMicro® Family Arm®Cortex®-M23 MCUs
࡛ M251 禺
NKM252SD
NLG28E
NKM252KG
NLG128KX
NKM252SD
NKM252KG
NLG20F
NLG128KX
NKNLG-48L
M252SD
NKNLG-48L
M252SD
NKNLG-48L
M252KG
NKNLG-48L
M252KG
NKM252SD
NLG64S
NKM252KG
NLG64S
NKM252SD
NKM252KG
NKM252SD
NKM252SD
NLG64S
NLG64S
NLG32Z
NLG32Z
�倞
࡛ M252 禺
µA/MHz ( 运行模式 )˚60 µA/MHz (Idle 模式 )˚2.5 µA (RTC 模式ƏRAM 数据保持 )˚1.5 µA ( 待机模式ƏRAM 数据保持 )
System
Timer
Analog
Connectivity
Security
Package
Status
-
- 2 1 1 1 2 1 -
- ʚ
ʚ
-
TSSOP28 4.4x9.7
ʚ
M252FC2AE Cortex-M23 48 1.75 5.5 -40 105 11 4
32
8
5
4
7
-
-
3
-
- 2 1 1 1 2 1 -
- ʚ
ʚ
-
TSSOP20 4.4x6.5
ʚ
M252KE3AE Cortex-M23 48 1.75 5.5 -40 105 81 4 128 16 8
4
12 12
ʚ
16 -
2 3 1 1 1 2 3 1 8 ʚ
ʚ
ʚ
LQFP128 14x14
ʚ
M252KG6AE Cortex-M23 48 1.75 5.5 -40 105 81 4 256 32 8
4
12 12
ʚ
16 1 2 3 1 1 1 2 3 1 8 ʚ
ʚ
ʚ
LQFP128 14x14
ʚ
M252LC2AE Cortex-M23 48 1.75 5.5 -40 105 37 4
32
12
5
4
12
8
ʚ
12 -
2 3 1 1 1 2 2 1 4 ʚ
ʚ
-
LQFP48
7x7
ʚ
M252LD2AE Cortex-M23 48 1.75 5.5 -40 105 37 4
64
12
5
4
12 12
ʚ
12 -
2 3 1 1 1 2 2 1 4 ʚ
ʚ
-
LQFP48
7x7
ʚ
M252LE3AE
128 16
8
4
12 12
ʚ
12 -
2 3 1 1 1 2 3 1 8 ʚ
ʚ
-
LQFP48
7x7
ʚ
M252LG6AE Cortex-M23 48 1.75 5.5 -40 105 37 4 256 32 8
4
12 12
ʚ
12 1 2 3 1 1 1 2 3 1 8 ʚ
ʚ
-
LQFP48
7x7
ʚ
M252SC2AE Cortex-M23 48 1.75 5.5 -40 105 50 4
32
12
5
4
12 12
ʚ
16 -
2 3 1 1 1 2 2 1 4 ʚ
ʚ
ʚ
LQFP64
7x7
ʚ
M252SD2AE Cortex-M23 48 1.75 5.5 -40 105 50 4
64
12
5
4
12 12
ʚ
16 -
2 3 1 1 1 2 2 1 4 ʚ
ʚ
ʚ
LQFP64
7x7
ʚ
M252SE3AE Cortex-M23 48 1.75 5.5 -40 105 49 4 128 16 8
4
12 12
ʚ
16 -
2 3 1 1 1 2 3 1 8 ʚ
ʚ
ʚ
LQFP64
7x7
ʚ
M252SG6AE Cortex-M23 48 1.75 5.5 -40 105 49 4 256 32 8
4
12 12
ʚ
16 1 2 3 1 1 1 2 3 1 8 ʚ
ʚ
ʚ
LQFP64
7x7
ʚ
M252ZC2AE Cortex-M23 48 1.75 5.5 -40 105 23 4
32
8
5
4
12
ʚ
10 -
- 2 1 1 1 2 1 -
- ʚ
ʚ
-
QFN33
5x5
ʚ
M252ZD2AE Cortex-M23 48 1.75 5.5 -40 105 22 4
64
12
5
4
12 12
ʚ
10 -
2 3 1 1 1 2 2 1 4 ʚ
ʚ
-
QFN33
5x5
ʚ
Cortex-M23 48 1.75 5.5 -40 105 37
4
-
NKNLGM252SD 28E
NKM252SD
NLG20F
NKNLGM252KG 128KX
NKNLGM252KG 128KX
NKNLGM252SD 48L
NKNLGM252SD 48L
NKNLGM252KG 48L
NKNLGM252KG 48L
NKNLGM252SD 64S
NKNLGM252SD 64S
NKNLGM252KG 64S
NKNLGM252KG 64S
NKNLGM252SD 32Z
NKNLGM252SD 32Z
M253 禺
NuMicro® M253 系列基于 Arm® Cortex®-M23 内核和 Armv8-M 架构Ə主频支持 48 MHzƏ支持 128 Kbytes 内嵌 Flash 内存以及 16 Kbytes
SRAM 内存ƏM253 系列集成一路 CAN FD 接口与 USB 2.0 全速设备Ə无须外挂晶振 Ə支持宽工作电压 1.75V ~ 5.5V 与����ʝ到����ʝ�的
M252 / M253 禺
9
NuMicro® Family Arm®Cortex®-M23 MCUs
-
MP Programmer
Tamper
-
Tool
EVB
XOM
11
Mass Production
RTC
EADC
4
Package Size
PWM (16-bit)
BPWM (16-bit)
5
Package Type
PDMA (ch)
Timer/ PWM
USB FS Device Crystal-less
PSIO
SPI/ I²S
USCI
I²C
QSPI
ISO-7816-3
LIN
UART
ACMP
DAC (12-bit)
SRAM (KB)
8
GPIO
32
LDROM Flash (KB)
M252EC2AE Cortex-M23 48 1.75 5.5 -40 105 19 4
Core
APROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍支持 USB 2.0 全速设备˚并且无须外挂晶振˚最高支持 8 路可模拟多样通讯协定的可编程串列接口 (PSIO)˚超低功耗技术 : 138
操作温度Ə并提供高亢干扰能力如 8 kV HBM ESD 与 4.4 kV EFT˛
䎾欽곭㚖适合于智能家庭与家电Ə工业控制 / 工业自动化Ə电池包管理˛
࡛ M253 禺
Ⱒꝶ暶䚍最高一路 CAN FD˚一路 USB 2.0 全速介面˚五路串口˚超低功耗技术 ������ѥ$�0+]���运行模式 )˚����ѥ$��57&�模式ƏRAM 数
据保持 )˚����ѥ$���待机模式ƏRAM 数据保持 )
33
�倞
Memory
Timer
Analog
Connectivity
Security
Package
Status
PDMA
Timer (32-bit)
BPWM (16-bit)
RTC
EADC
ACMP
UART
I²C
USCI
SPI/ I²S
CAN FD
USB FS Device
USB FS Device Crystal-less
XOM
5
4
6
ʚ
12
2
5
2
1
1
1
1
ʚ
ʚ
LQFP48 7x7
ʚ
M253ZE3AE
Cortex-M23
48 1.75 5.5
-40 105
22
4
128
16
5
4
6
ʚ
10
2
5
2
1
1
1
1
ʚ
ʚ
QFN33
5x5
ʚ
M253LE3AE
Cortex-M23
48 1.75 5.5
-40 105
37
4
128
16
5
4
6
ʚ
12
2
5
2
1
1
1
1
ʚ
ʚ
LQFP48 7x7
ʚ
M253LD3BE Cortex-M23
48 1.75 5.5
-40 105
37
4
64
16
5
4
6
ʚ
12
2
5
2
1
1
1
1
ʚ
ʚ
LQFP48 7x7
ʚ
M253ZE3BE
Cortex-M23
48 1.75 5.5
-40 105
22
4
128
16
5
4
6
ʚ
10
2
5
2
1
1
1
1
ʚ
ʚ
QFN33
5x5
ʚ
M253LE3BE
Cortex-M23
48 1.75 5.5
-40 105
37
4
128
16
5
4
6
ʚ
12
2
5
2
1
1
1
1
ʚ
ʚ
LQFP48 7x7
ʚ
Package Size
Core
NuMicro® Family Arm®Cortex®-M23 MCUs
M254/M256/M258 禺
MP Programmer
SRAM
16
Tool
EVB
LDROM Flash
APROM Flash
64
Mass Production
GPIO
4
Package Type
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
37
Operating Voltage (max) (V)
-40 105
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
48 1.75 5.5
Part No.
Operating Voltage (min) (V)
M253LD3AE Cortex-M23
Operating Frequency (MHz)
NuMicro®䗏 䱾 ⵖ 㐼
System
NKNLGM253LE 48L
NKNLGM253LE 32Z
NKNLGM253LE 48L
NKNLGM253LE 48L
NKNLGM253LE 32Z
NKNLGM253LE 48L
NuMicro® M254/M256/M258 系列为超低功耗微控制器Ə基于 Arm® Cortex®-M23 内核和 Armv8-M 架构Ə主频支持 48 MHzƏ支持 64 ~ 256
Kbytes 内嵌 Flash 内存以及 8 ~ 32 Kbytes SRAM 内存Ə4 K 字节独立 Flash 作为在线系统编程ƋIn-System Programmingƌ用途Ə内建
COM/SEG LCD 驱动Ə也支持电容式触摸功能可应用于家电当中的人机接口控制Ə而 NuMicro M258 系列更是支持 USB 2.0 全速装置˛
䎾欽곭㚖适合于手持式装置Ə温控器˚智慧家庭˚智能家电˚工业控制 / 工业自动化Ə温湿度纪录仪等
࡛ M254 禺
Ⱒꝶ暶䚍支持 8x40, 6x42, 4x44 COM/SEG LCD 驱动Ə并支持三种分压方式Ɲ charge-pump, 电阻以及内建 OP BufferƏ能够支持 1.8V 至 5.5
V LCD 液晶屏 , 并可调整 1/2, 1/3, 1/4 偏压 以及 1/4, 1/6, 1/8 等周期
Memory
Timer
Analog
Connectivity
Security Crypto Display
-
ʚ
-
M254SE3AE Cortex-M23 48 1.75 5.5 -40 105 53 4 128 16 5 4 6 ʚ 16 - 2 - 3 1 1 1 1 1 -
-
ʚ
-
M254KE3AE Cortex-M23 48 1.75 5.5 -40 105 86 4 128 16 5 4 6 ʚ 16 - 2 - 3 1 1 1 1 1 -
-
ʚ
-
M254SG6AE Cortex-M23 48 1.75 5.5 -40 105 53 4 256 32 8 4 12 ʚ 16 2 2 - 4 1 1 2 2 2 -
-
ʚ
ʚ
M254KG6AE Cortex-M23 48 1.75 5.5 -40 105 86 4 256 32 8 4 12 ʚ 16 2 2 - 4 1 1 2 2 2 -
-
ʚ
ʚ
4 x 32
6 x 30
8 x 28
4 x 32
6 x 30
8 x 28
4 x 40
6 x 42
8 x 44
4 x 32
6 x 30
8 x 28
4 x 40
6 x 42
8 x 44
MP Programmer
M254SD2AE Cortex-M23 48 1.75 5.5 -40 105 54 4 64 8 5 4 6 ʚ 16 - 2 - 3 1 1 1 1 1 -
4 x 20
6 x 18
8 x 16
EVB
-
Tool
Status
Mass Production
ʚ
Package Size
-
Package
Package Type
AES
M254MD2AE Cortex-M23 48 1.75 5.5 -40 105 37 4 64 8 5 4 6 ʚ 12 - 2 - 3 1 1 1 1 1 -
ComSeg LCD
XOM
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
ISO-7816-3
LIN
UART
Touch Key
ACMP
DAC (12-bit)
EADC
RTC
BPWM (16-bit)
Timer/ PWM
PDMA
SRAM
APROM Flash
LDROM Flash
GPIO
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Core
M254/M256/M258 禺
34
System
LQFP
10x10
44
ʚ
NKM256SD
-
LQFP
64
7x7
ʚ
NKM256SD
NLG64S
LQFP
64
7x7
ʚ
NKM258KE
NLG64S
LQFP
14x14
128
ʚ
NKM258KE
NLG128KX
LQFP
64
ʚ
NKM258KG
NLG64S
ʚ
NKM258KG
NKG128KX
7x7
LQFP
14x14
128
�倞
࡛ M256 禺
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍支持 8x40, 6x42, 4x44 COM/SEG LCD 驱动以及电容式触控功能Ə最高可支持至 16 个独立触控按键Ə并提供 single-scanƏ
periodic key-scans, slider, wheel 等多种范例代码
System
Timer
Analog
Connectivity
Security Crypto Display
Package
Status
Tool
ʚ
-
4 x 20
6 x 18
8 x 16
LQFP44 10x10
ʚ
NKM256SD
-
M256SD2AE Cortex-M23 48 1.75 5.5 -40 105 54 4 64 8 5 4 6 ʚ 16 - 2 14 3 1 1 1 1 1 -
-
ʚ
-
4 x 32
6 x 30
8 x 28
LQFP64
7x7
ʚ
NKM256SD
NLG64S
M256SE3AE Cortex-M23 48 1.75 5.5 -40 105 53 4 128 16 5 4 6 ʚ 16 - 2 14 3 1 1 1 1 1 -
-
ʚ
-
4 x 32
6 x 30
8 x 28
LQFP64
7x7
ʚ
NKM258KE
NLG64S
M256KE3AE Cortex-M23 48 1.75 5.5 -40 105 86 4 128 16 5 4 6 ʚ 16 - 2 15 3 1 1 1 1 1 -
-
ʚ
-
4 x 40
6 x 42 LQFP128 14x14
8 x 44
ʚ
NKNLGM258KE 128KX
M256SG6AE Cortex-M23 48 1.75 5.5 -40 105 53 4 256 32 8 4 12 ʚ 16 2 2 20 4 1 1 2 2 2 -
-
ʚ
ʚ
4 x 40
6 x 42
8 x 44
ʚ
NKM258KG
M256KG6AE Cortex-M23 48 1.75 5.5 -40 105 86 4 256 32 8 4 12 ʚ 16 2 2 24 4 1 1 2 2 2 -
-
ʚ
ʚ
4 x 40
6 x 42 LQFP128 14x14
8 x 44
ʚ
NKNLGM258KG 128KX
LQFP64
7x7
EVB
-
NLG64S
࡛ M258 禺
Ⱒꝶ暶䚍支持 8x40, 6x42, 4x44 COM/SEG LCD 以及高达 16 组独立电容式触控按键Ə 并提供 BC1.2 USB
System
Timer
Analog
Connectivity
Security Crypto Display
Package
Status
Tool
Mass Production
EVB
MP Programmer
LQFP
14x14
128
ʚ
NKNLGM258KE 128KX
8x28
6x26
4x24
LQFP
64
ʚ
NKM258KG
8x40
6x42
4x44
LQFP
14x14
128
ʚ
NKNLGM258KG 128KX
-
8x28
6x26
4x24
LQFP
64
M258KE3AE Cortex-M23 48 1.75 5.5 -40 105 82 4 128 16 5 4 6 ʚ 16 - 2 15 3 1 1 1 1 1 1 ʚ
ʚ
-
8x40
6x42
4x44
M258SG6AE Cortex-M23 48 1.75 5.5 -40 105 49 4 256 32 8 4 12 ʚ 16 2 2 20 4 1 1 2 2 2 1 ʚ
ʚ
ʚ
M258KG6AE Cortex-M23 48 1.75 5.5 -40 105 82 4 256 32 8 4 12 ʚ 16 2 2 24 4 1 1 2 2 2 1 ʚ
ʚ
ʚ
RTC
ʚ
Core
M258SE3AE Cortex-M23 48 1.75 5.5 -40 105 49 4 128 16 5 4 6 ʚ 16 - 2 14 3 1 1 1 1 1 1 ʚ
7x7
M254/M256/M258 禺
Package Size
NLG64S
Package Type
NKM258KE
ComSeg LCD
ʚ
AES
7x7
XOM
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
ISO-7816-3
LIN
UART
Touch Key
ACMP
DAC (12-bit)
EADC
BPWM (16-bit)
Timer/ PWM
PDMA
SRAM
APROM Flash
LDROM Flash
GPIO
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro® Family Arm®Cortex®-M23 MCUs
MP Programmer
Mass Production
Package Size
Package Type
ComSeg LCD
AES
M256MD2AE Cortex-M23 48 1.75 5.5 -40 105 37 4 64 8 5 4 6 ʚ 12 - 2 6 3 1 1 1 1 1 -
Core
XOM
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
ISO-7816-3
LIN
UART
Touch Key
ACMP
DAC (12-bit)
EADC
RTC
BPWM (16-bit)
Timer/ PWM
PDMA
SRAM (KB)
APROM Flash (KB))
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Memory
NKG64S
35
�倞
NuMicro®䗏 䱾 ⵖ 㐼
M261/M262/M263 禺
新唐科技 NuMicro® M261/M262/M263 系列是新一代 32 位低功耗微控制器产品Ə基于 Arm® Cortex®-M23 内核Ə支持 Arm®v8-M 指令集架构˛
其工作频率达 64 MHzƏ内嵌可支持无线更新固件技术ƋOTAƌ的双区块Ƌdual bankƌ512 KB Flash˚96 KB SRAMƏ可运作于 1.8V ~ 3.6V
工作电压和����ʝ�a�����ʝ�温度范围˛
䎾欽곭㚖智能门锁˚指纹智能卡˚智能家居˚智能楼宇˚无线感测装置˚智能表计˚移动式数据采集仪˚手持式医疗设备
࡛ M261/M262/M263 禺
Ⱒꝶ暶䚍支持无线更新固件的 512 KB 双区块ƋDual Bankƌ架构闪存ƋFlashƌ˚USB 2.0 全速 OTG˚CAN 2.0B 接口˚SDHC 2.0 接口˚
⡜⸆罳䪮助正常运行模式下约为����ѥ$�0+]ƋLDO 模式ƌ和����ѥ$�0+]ƋDC-DC 模式ƌƏ待机掉电模式下约为�����ѥ$Ə深度掉电模式下
的耗电流则小于���ѥ$˛
System
Connectivity
Security Crypto
Package
Status
Tool
MP Programmer
Mass Production
Package Size
Package Type
4 512 96 16 4 12 12 2 1 ʚ 16 2 2 2 6 3 1 3 2 4 1
- 1 - ʚ ʚ ʚ 1
ʚ
LQFP64
7x7
ʚ
NKNLGM263KI 64S
- ʚ ʚ -
ʚ
QFN33
5x5
ʚ
NKNLGM263KI 32Z
2 ʚ 16 2 2 2 6 3 1 3 2 4 1
- 1 1 ʚ ʚ ʚ 6
ʚ
LQFP128 14x14
ʚ
NKNLGM263KI 128KX
4 512 96 16 4 12 12 2 1 ʚ 16 2 2 2 6 3 1 3 2 4 1
- 1 1 ʚ ʚ ʚ 1
ʚ
LQFP64
7x7
ʚ
NKNLGM263KI 64S
4 512 96 16 4 12 12 1
- ʚ 9 2 2 2 6 3 1 3 2 3 1 - 1 1 - ʚ ʚ -
ʚ
QFN33
5x5
ʚ
NKNLGM263KI 32Z
Cortex64 1.8 3.6 -40 105 107 4 512 96 16 4 12 12 2
M23
2 ʚ 16 2 2 2 6 3 1 3 2 4 1 1 1 1 ʚ ʚ ʚ 6
ʚ
LQFP128 14x14
ʚ
NKNLGM263KI 128KX
4 512 96 16 4 12 12 2 1 ʚ 16 2 2 2 6 3 1 3 2 4 1 1 1 1 ʚ ʚ ʚ 1
ʚ
LQFP64
7x7
ʚ
NKNLGM263KI 64S
- ʚ 9 2 2 2 6 3 1 3 2 3 1 1 1 1 - ʚ ʚ -
ʚ
QFN33
5x5
ʚ
NKNLGM263KI 32Z
Cortex64 1.8 3.6 -40 105 51
M23
Cortex64 1.8 3.6 -40 105 25
M23
Cortex64 1.8 3.6 -40 105 51
M23
Cortex64 1.8 3.6 -40 105 25
M23
4 512 96 16 4 12 12 1
I²S
Cortex64 1.8 3.6 -40 105 107 4 512 96 16 4 12 12 2
M23
CAN
4 512 96 16 4 12 12 1
I²C
Cortex64 1.8 3.6 -40 105 25
M23
LIN
Cortex64 1.8 3.6 -40 105 51
M23
- ʚ 9 2 2 2 6 3 1 3 2 3 1 - 1 -
EVB
Crypto
NKNLGM263KI 128KX
SDHC
ʚ
USCI
LQFP128 14x14
QSPI
ʚ
Cortex64 1.8 3.6 -40 105 107 4 512 96 16 4 12 12 2
M23
ACMP
EBI
Tamper
XOM
TRNG
USB FS OTG
SPI/ I²S
ISO-7816-3
LPUART
DAC (12-bit)
EADC
RTC
ECAP
QEI
EPWM (16-bit)
BPWM (16-bit)
Timer/ PWM
PDMA
M263ZIAAE
Analog
- 1 - ʚ ʚ ʚ 6
SRAM
M263SIAAE
APROM Flash
M263KIAAE
Timer
2 ʚ 16 2 2 2 6 3 1 3 2 4 1
GPIO
M261/M262/M263 禺
36
M262ZIAAE
Memory
LDROM Flash
M262SIAAE
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
M262KIAAE
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
M261ZIAAE
Operating Voltage (min) (V)
M261SIAAE
Operating Voltage (max) (V)
M261KIAAE
Operating Frequency (MHz)
Part No.
Core
NuMicro® Family Arm®Cortex®-M23 MCUs
支持安全开机功能˚硬件加密引擎˚16 通道 12 位 3.76 Msps 采样率 ADC˚12 位 1 Msps 采样率 DAC˚模拟比较器 ƋACMPƌ
�倞
M2003 禺
Kbytes SRAM 内存Ə支持工作电压 2.4V ~ 5.5VV 与����ʝ�到����ʝ�的操作温度˛NuMicro® M2003 系列配备丰富的外设Ə如 32 位 Timer˚
UART˚I2C˚通用串行控制接口 (USCI) 可设为 UART, I²C 或 SPIƏ以及 ADC 及 PWM˛
䎾欽곭㚖广泛地适用于各种应用Ə如智能建筑˚智能家庭与家电˚工业控制˚电池管理系统等等˛
Ⱒꝶ暶䚍提供业界最通用小封装 TSSOP20 及 QFN20˛脚位与 N76E003AT20˚N76E003AQ20˚N76E003BQ20˚MS51FB9AE˚
MS51XB9AE˚MS51XB9BE 及 MG51 系列兼容˛
Timer
Analog Connectivity Security
Package
Status
Tool
ADC (12-bit)
UART
I²C
USCI
SPROM(B)
Package Type
Package Size
Mass Production
EVB
MP Programmer
ʚ
4
6 1
8
2
1
1
1024
TSSOP20
4.4x6.5
2024/Q2
NK-M2003FC
-
M2003XC1AE Cortex-M23 24 2.4 5.5 -40 105 18 4 32
&RQÀJXUDEOH
4
ʚ
ʚ
4
6 1
8
2
1
1
1024
QFN20
3x3
2024/Q2
NK-M2003FC
-
Timer(32-bit)
ʚ
WWDT
WDT
SRAM(KB)
4
Data Flash(KB)
&RQÀJXUDEOH
GPIO
M2003FC1AE Cortex-M23 24 2.4 5.5 -40 105 18 4 32
Core
ECAP
PWM(16-bit)
APROM Flash(KB)
LDROM Flash(KB)
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Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro® Family Arm®Cortex®-M23 MCUs
System
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® M2003 系列基于 Arm® Cortex®-M23 内核Ə内建 32 位硬件乘除法器˛主频支持 24 MHzƏ支持 32 Kbytes 内嵌 Flash 内存以及 4
M2003 禺
37
�新唐
NuMicro®微 控 制 器
Arm® Cortex®-M7 䗏䱾ⵖ㐼
KM1M7 系列 MCU 搭载 Arm® Cortex M7 内核Ə是一款同时具有高处理能力及低功耗性能的 MCU
®
该 MCU 内置适用于马达 / 电源控制的高性能 PWMƏ高速高精度 AD 以及反馈控制辅助功能Ə可用于构建高效率 / 低功耗 / 小型化的电源管
理系统˛
KM1M7A/KM1M7C 侨㶶歏彂 禺
KM1M7 系列 MCU 搭载 Arm® Cortex M7 内核Ə是一款同时具有高处理能力及低功耗性能的 MCU˛
®
该 MCU 内置适用于Ə电源控制的高速 , 高精度模拟模块以及辅助功能Ə并采用具有 RWWƋRead while Writeƌ功能的存储器Ə
使 EEPROM 的读写更有效˛可用于构建高效率 / 低功耗 / 小型化的电源管理系统˛
Connectivity
Package
CRC
Flash/SRAM
ECC
VGA
Comparator
DAC (10-bit)
DAC (8-bit)
Unit
CAN
SM-Bus
I²C
SPI
UART
Clock
synchronous
Power
control PWM
Timer (16-bit)
I/O
I-RAM (KB)
Data Flash
SRAM (KB)
Flash (KB)
Core speed
(MHz)
Part No.
ADC(12-bit)
Channel
NuMicro® Family Arm® Cortex® - M7 Microcontroller
࡛�24�4�(-__
KM1M7AF52N 160
512
64
64
64
82
20
10
7
6
3
2
-
2
23
3
10
2
5
5
v
v
HQFP100 (14x14)
KM1M7AF50N 160
512
64
64
64
123
20
12
8
7
3
2
1
2
32
3
10
2
5
5
v
v
HQFP144 (20x20)
DAC (8-bit)
DAC (10-bit)
Comparator
VGA
Flash/SRAM
ECC
CRC
࡛�24�4�*-__
Connectivity
Channel
Unit
14
3
1
7
7
7
2
1
1
11
3
7
6
v
v
-
-
TQFP32 (7x7)
38
14
5
1
7
7
7
2
1
1
16
3
12
10
v
v
-
-
TQFP48 (7x7)
KM1M7CF04N 160
512
64
32
64
52
14
6
1
7
7
7
2
1
1
18
3
12
12
v
v
-
-
TQFP64 (10x10)
KM1M7CF03N 160
512
64
32
64
68
14
8
1
7
7
7
2
1
1
26
3
12
12
v
v
-
-
TQFP80 (12x12)
KM1M7CF16N 160
512
64
32
64
24
14
3
1
7
7
7
2
1
1
11
3
7
6
v
v
v
v
TQFP32 (7x7)
KM1M7CF15N 160
512
64
32
64
38
14
5
1
7
7
7
2
1
1
16
3
12
10
v
v
v
v
TQFP48 (7x7)
KM1M7CF14N 160
512
64
32
64
52
14
6
1
7
7
7
2
1
1
18
3
12
12
v
v
v
v
TQFP64 (10x10)
KM1M7CF13N 160
512
64
32
64
68
14
8
1
7
7
7
2
1
1
26
3
12
12
v
v
v
v
TQFP80 (12x12)
Package
CAN
24
64
I²C
64
32
SPI
32
64
UART
64
512
RTC
512
KM1M7CF05N 160
I/O
SM-Bus
Clock
synchronous
Power
control PWM
Timer (16-bit)
I-RAM (KB)
Data Flash
SRAM (KB)
Flash (KB)
KM1M7CF06N 160
KM1M7B 鷠」㐼䱾ⵖ 禺
KM1M7 系列 MCU 搭载 Arm® Cortex M7 内核Ə是一款同时具有高处理能力及低功耗性能的 MCU˛
®
该 MCU 内置适用于马达控制的高速 , 高精度模拟模块以及辅助功能Ə并采用具有 RWWƋRead while Writeƌ功能的存储器Ə
使 EEPROM 的读写更有效˛可用于构建高效率 / 低功耗 / 小型化的电源管理系统˛
࡛�24�4�)-__
Connectivity
ADC(12-bit)
Flash (KB)
SRAM (KB)
Data Flash
I-RAM (KB)
I/O
Timer (16-bit)
Power
control PWM
Clock
synchronous
UART
SPI
I²C
SM-Bus
Channel
Unit
DAC (8-bit)
DAC (10-bit)
Comparator
VGA
Flash/SRAM
ECC
CRC
Package
KM1M7BF02K 160
256
32
64
64
82
20
10
7
6
3
2
-
23
3
10
2
5
5
v
v
HQFP100 (14x14)
KM1M7BF02M 160
384
48
64
64
82
20
10
7
6
3
2
-
23
3
10
2
5
5
v
v
HQFP100 (14x14)
KM1M7BF02N 160
512
64
64
64
82
20
10
7
6
3
2
-
23
3
10
2
5
5
v
v
HQFP100 (14x14)
KM1M7BF00K 160
256
32
64
64
123
20
12
8
7
3
2
1
32
3
10
2
5
5
v
v
HQFP144 (20x20)
KM1M7BF00M 160
384
48
64
64
123
20
12
8
7
3
2
1
32
3
10
2
5
5
v
v
HQFP144 (20x20)
KM1M7BF00N 160
512
64
64
64
123
20
12
8
7
3
2
1
32
3
10
2
5
5
v
v
HQFP144 (20x20)
Part No.
Core speed
(MHz)
KM1M7A/KM1M7C 侨㶶歏彂 禺
38
Core speed
(MHz)
Part No.
ADC(12-bit)
�倞
NuMicro ® 鲨欽䗏䱾ⵖ㐼㹻停
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® CAN/ 车用微控制器是专为汽车应用而设计的微控制器系列Ə通过 AEC-Q100 认证Ə并具有内置的控制器局域网ƋCANƌ2.0B 接口˛
䎾欽곭㚖⦝鲨鳇⸔禺絡鲨欽抨⯕鲨魨䱾ⵖ䫬㣢儑爚㐼
NuMicro® CAN / 车用系列 MCU 由以下产品系列组成Ɲ
M0A23 系列Ɲ通过 AEC-Q100 grade 1Ə支持高达 125° C˚48 MHz˚高达 32 KB Flash˚CAN/LIN 接口˚PDMA˚DAC˚ACMP
NUC131U 系列Ɲ通过 AEC-Q100 grade 2Ə支持高达 105° C˚50 MHz˚高达 68 KB Flash˚CAN/LIN 接口˚最多支持 6 组 UART
M0A23 禺
NuMicro® M0A23 是专为汽车应用而设计Ə基于 Arm® Cortex®-M0 内核Ə提供高达 32 KB 的闪存Ə4 KB SRAMƏ提供 CAN/LIN 接口和高稳
定性Ə能够承受高达 125° C 的环境温度˛
࡛ M0A23 禺
Ⱒꝶ暶䚍硬件除法器˚支持最高 125° C˚CAN/LIN 接口˚PDMA˚单线式 UART
System
SSOP20 5.3x7.2
-
M0A23EC1ACU Cortex-M0 48 2.4 5.5 -40 125 26 ʚ
2
32 &RQÀJXUDEOH
4
5
4
6 17 1
2
ʚ
2
2
2
1 TSSOP28 4.4x9.7
ʚ
M0A23OC1AC
2
32 &RQÀJXUDEOH
4
5
4
6 17 1
2
ʚ
2
2
2
1
ʚ
M0A23EC1AC
Cortex-M0 48 2.4 5.5 -40 125 18 ʚ
Cortex-M0 48 2.4 5.5 -40 125 26 ʚ
2
32 &RQÀJXUDEOH
4
5
4
6 17 1
ʚ
2
2
2
2
SSOP20 5.3x7.2
1 TSSOP28 4.4x9.7
ʚ
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NKNLGM0A23EC M0A21E
NKNLGM0A23OC M0A21O
NKNLGM0A23EC M0A21E
AEC-Q100
1
&HUWLÀFDWLRQ
MP Programmer
2
EVB
2
Tool
Mass Production
2
Status
Package Size
ʚ
Package Type
ACMP
Internal Voltage Reference
2
DAC (5-bit)
5
Package
CAN
USCI
LIN
UART
ADC (12-bit)
6 17 1
PWM (16-bit)
4
Connectivity
Timer (32-bit)
32 &RQÀJXUDEOH
Analog
4
PDMA (ch)
SRAM (KB)
2
Timer
Data Flash (KB)
LDROM Flash (KB)
M0A23OC1ACU Cortex-M0 48 2.4 5.5 -40 125 18 ʚ
APROM Flash (KB)
GPIO
Temperature Sensor
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Operating Voltage (max) (V)
Operating Voltage (min) (V)
Core
Operating Frequency (MHz)
Part No.
Memory
Grade 1
-
KB SRAM˚以及 4 KB ISP ROM˚具有内置控制器局域网ƋCANƌ2.0B 接口Ə并通过了 AEC-Q100 2 级认证
䎾欽곭㚖电梯˚马达控制˚BMS˚充电桩˚CAN 模块等
࡛ NUC131U 禺
Timer Analog
Connectivity
Package
Status
8
6
3
1
2
1
LQFP 48 7x7
ʚ
NUC131SD2AEU Cortex-M0 50 2.5 5.5 -40 105 56 4
68 &RQÀJXUDEOH
8
4
12
8
6
3
1
2
1
LQFP 64 7x7
ʚ
I²C
LIN
SPI
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NKNUC131U
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AEC-Q100
12
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MP Programmer
4
Tool
EVB
Mass Production
UART
Package Size
ADC (12-bit)
Package Type
PWM (16-bit)
8
CAN
SRAM (KB)
68 &RQÀJXUDEOH
GPIO
NUC131LD2AEU Cortex-M0 50 2.5 5.5 -40 105 42 4
Core
Timer (32-bit)
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
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Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
M0A23 禺 / NUC131U 禺
NuMicro® NUC131SD2AEU/NUC131LD2AEU 是基于 32 位 ARM® Cortex®-M0 的微控制器Ə运行速度高达 50 MHzƏ内建 68 KB Flash˚8
System
䗏
䱾
ⵖ
㐼
Grade 1
NUC131U 禺
Ⱒꝶ暶䚍硬件除法器˚LIN/CAN 接口˚6 组 UART˚24 路 100 MHz PWM
NuMicro® Arm® Cortex®-M0
䎾欽곭㚖车用˚灯光˚工业通讯˚工业控制˚电源控制等
Grade 2
Grade 2
39
�新唐
NuMicro®微 控 制 器
NuMicro ® Arm ® Cortex ®-M0 䗏䱾ⵖ㐼㹻停
新唐科技身为全球微控制器领导厂商Ə持续推出当代最先进的 32 位微控制器Ə内建 Arm® Cortex®-M0 内核Ə拥有多样且宽广的操作电压范围
选择性Ƌ1.8V ~ 3.6V˚2.5V ~ 5.5VƌƏ可达工业控制的操作温度范围Ƌ-40° C ~ 105° CƌƏ内建高精度振荡器Ə兼备高稳定性和高抗干扰能力Ƌ8
kV ESDƏ4 kV EFTƌ˛
Arm® Cortex®-M0 / M23 微控制器家族包含 1.8V M031 系列˚5V NUC029 系列ƞ具有 USB 2.0 全速设备功能 NUC121/123/125/126 系列˚
具有 CAN 功能的 NUC131/230/240 系列˚超值的 Mini51 和 M051 系列和超低工耗的 Nano 系列Ƌ1.8V ~ 3.6VƌƏ是工业控制系统˚工业自
动化˚消费产品˚嵌入式网络控制˚能源˚电力系统和电机控制的理想解决方案˛
M029G/M030G/M031G 禺
新唐 NuMicro® M029G/M030G/M031G 是专为光模块所设计的 Arm® Cotex®-M0 32 位微控制器Ə配有硬件乘除法器˛此系列工作频率可达
NuMicro® Arm® Cortex®-M0
微
控
制
器
48/72 MHzƏ32/64 KB Flash 和 2/4/8 KB SRAMƏ以及 2 KB LDROM 做为 ISP (In-System Programming) 使用˛此系列配备硬件曼彻斯特
编解码器及一组支持自动数据产生功能的 DAC (M031G 系列 ) 供调顶功能使用˚丰富的模拟外围包含 12 位 DAC 及最高可达 2 Msps 的 12
位 ADC˚内建精度 ±2° C 的温度传感器˚QFN24 (3x3 mm) 及 QFN33 (4x4 mm) 小封装˚支持 2 组 400 KHz (M029G)/ 1 MHz (M030G/
M031G) 从机模式 I²C˛可工作于 2.7V ~ 3.6V 电压接口Ə工作温度为 -40° C 至 105° C ˛
⚁㾪䎾欽光模块˛也適用於需類比週邊的小尺寸應用Ə如電源模塊˚小屏幕˚微投影機˚小家電˚穿戴裝置˚傳感器等
࡛ M029G 禺
Ⱒꝶ暶䚍内建温度传感器Ə400K 从机模式 I²C˚QFN24/33 小封装
࡛ M030G 禺
Ⱒꝶ暶䚍内建温度传感器Ə1MHz 从机模式 I²C˚QFN24/33 小封装
System
Clock
Timer
Analog
Connectivity
Package
Status
Tool
I²C
SPI/ I²S
NKM029GGC
-
M030GGC1AE Cortex-M0 48 ʚ 2.7 3.6 -40 105 19
±2
2
32 &RQÀJXUDEOH 4
5
38.4 48
-
2
6
11
4
ʚ
1
2
1
QFN24 3x3
ʚ
NKM030GTD
-
M030GGD1AE Cortex-M0 48 ʚ 2.7 3.6 -40 105 19
±2
2
64 &RQÀJXUDEOH 4
5
38.4 48
-
2
6
11
4
ʚ
1
2
1
QFN24 3x3
ʚ
NKM030GTD
-
M030GTC1AE Cortex-M0 48 ʚ 2.7 3.6 -40 105 28
±2
2
32 &RQÀJXUDEOH 4
5
38.4 48
-
2
6
16
4
ʚ
1
2
1
QFN33 4x4
ʚ
NKM030GTD
-
M030GTD1AE Cortex-M0 48 ʚ 2.7 3.6 -40 105 28
±2
2
64 &RQÀJXUDEOH 4
5
38.4 48
-
2
6
16
4
ʚ
1
2
1
QFN33 4x4
ʚ
NKM030GTD
-
Core
M029G/M030G/M031G 禺
MP Programmer
UART
-
EVB
DAC (12-bit)
Internal Voltage Reference
QFN24 3x3
Mass Production
ADC (12-bit)
1
Package Size
BPWM (16-bit)
2
Package Type
PLL (MHz)
Timer (32-bit)
1
LIRC (kHz)
ʚ
HIRC (MHz)
2
PDMA (ch)
11
SRAM (KB)
6
Data Flash (KB)
LDROM Flash (KB)
2
APROM Flash (KB)
GPIO
Temperature Sensor Accuracy �ʝ�
-
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38.4 48
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5
Operating Voltage (min) (V)
32 &RQÀJXUDEOH 2
Operating Voltage (max) (V)
2
CRC
±2
Operating Frequency (MHz)
M029GGC0AE Cortex-M0 48 ʚ 2.7 3.6 -40 105 19
Part No.
40
Memory
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࡛ M031G 禺
System
Memory
Clock
Timer
Analog
Connectivity
Package
Status
Tool
Others
MP Programmer
DAC Auto Data Generation
Hardware Manchester Codec
ʚ
M031GGD2AE Cortex-M0 72 ʚ 2.7 3.6 -40 105 19 ±2
2
64 &RQÀJXUDEOH 8 7 38.4 48 72
6
6
11
4
ʚ
1
2
1
QFN24 3x3
ʚ
NKM031GTD
-
ʚ
ʚ
M031GTC2AE Cortex-M0 72 ʚ 2.7 3.6 -40 105 28 ±2
2
32 &RQÀJXUDEOH 8 7 38.4 48 72
6
6
16
4
ʚ
1
2
1
QFN33 4x4
ʚ
NKM031GTD
-
ʚ
ʚ
M031GTD2AE Cortex-M0 72 ʚ 2.7 3.6 -40 105 28 ±2
2
64 &RQÀJXUDEOH 8 7 38.4 48 72
6
6
16
4
ʚ
1
2
1
QFN33 4x4
ʚ
NKM031GTD
-
ʚ
ʚ
Core
NuMicro® Arm® Cortex®-M0
I²C
SPI/ I²S
ʚ
EVB
UART
-
Mass Production
DAC (12-bit)
Internal Voltage Reference
NKM031GTD
Package Size
ADC (12-bit)
ʚ
Package Type
BPWM (16-bit)
QFN24 3x3
PLL (MHz)
1
LIRC (kHz)
2
HIRC (MHz)
1
PDMA (ch)
SRAM (KB)
ʚ
Data Flash (KB)
4
LDROM Flash (KB)
11
APROM Flash (KB)
6
GPIO
Timer (32-bit)
Temperature Sensor Accuracy �ʝ�
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6
Operating Voltage (min) (V)
32 &RQÀJXUDEOH 8 7 38.4 48 72
Operating Voltage (max) (V)
2
CRC
Operating Frequency (MHz)
M031GGC2AE Cortex-M0 72 ʚ 2.7 3.6 -40 105 19 ±2
Part No.
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍硬件曼测斯特编解码器Ə一组支持自动数据产生功能 DACƏ内建温度传感器Ə1 MHz 从机模式 I²C˚QFN24/33 小封装
䗏
䱾
ⵖ
㐼
M029G/M030G/M031G 禺
41
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NuMicro®䗏 䱾 ⵖ 㐼
M031 禺
NuMicro® M031 系列基於 Arm® Cortex®-M0 内核Ə是为 1.8V ~ 3.6V 工业应用而设计˛配备高效与丰富的外设Ə如Ɲ2 Msps ADCƏ最高 144
MHz PWMƏ另外还符合 IEC-60730 安全规范和 USB 2.0 全速设备Ƌ无须外挂晶振ƌƏ以及 16 K ~ 512 K 字节 Flash 内存˚2 K ~ 96 K 字节
SRAM˛
䎾欽곭㚖工业控制˚高精度仪表˚无线充电˚人机界面˚物联网节点设备˚安全系统˚电机控制˚通信系统等
࡛ M031 禺
Ⱒꝶ暶䚍配置最高 10 路 UART˚144 MHz PWM˚2 Msps ADC˚24 MHz SPI˚UART 支持 1 线模式˚OTA˚安全程序 ROM
Timer
Analog
Connectivity
Security
Package
Status
ADC (12-bit)
ACMP
UART
QSPI
I²C
SMBUS (Supported by I2C)
USCI
SPI/ I²S
EBI
SPROM (Byte)
3
-
2
-
-
1
-
512
TSSOP20 4.4x6.5
ʚ
M031EB0AE Cortex-M0 48 1.8 3.6 -40 105 23 2 16
2
-
2
6
-
-
9
-
3
-
2
-
-
1
-
512
TSSOP28 4.4x9.7
ʚ
M031TB0AE Cortex-M0 48 1.8 3.6 -40 105 27 2 16
2
-
2
6
-
-
10
-
3
-
2
-
-
1
-
512
M031FC1AE Cortex-M0 48 1.8 3.6 -40 105 15 2 32
4
2
4
6
-
-
7
-
3
-
2
-
-
1
-
512
TSSOP20 4.4x6.5
ʚ
M031EC1AE Cortex-M0 48 1.8 3.6 -40 105 23 2 32
4
2
4
6
-
-
9
-
3
-
2
-
-
1
-
512
TSSOP28 4.4x9.7
ʚ
M031TC1AE Cortex-M0 48 1.8 3.6 -40 105 27 2 32
4
2
4
6
-
-
10
-
3
-
2
-
-
1
-
512
QFN33
4x4
ʚ
M031LC2AE Cortex-M0 48 1.8 3.6 -40 105 42 2 32
8
5
4
12
-
-
12
2
3
-
2
-
1
1
-
512
LQFP48
7x7
ʚ
M031SC2AE Cortex-M0 48 1.8 3.6 -40 105 55 2 32
8
5
4
12
-
-
16
2
3
-
2
-
1
1
-
512
LQFP64
7x7
ʚ
M031TD2AE Cortex-M0 48 1.8 3.6 -40 105 27 2 64
8
5
4
12
-
-
10
2
3
-
2
-
1
1
-
512
QFN33
4x4
ʚ
M031LD2AE Cortex-M0 48 1.8 3.6 -40 105 42 2 64
8
5
4
12
-
-
12
2
3
-
2
-
1
1
-
512
LQFP48
7x7
ʚ
M031SD2AE Cortex-M0 48 1.8 3.6 -40 105 55 2 64
8
5
4
12
-
-
16
2
3
-
2
-
1
1
-
512
LQFP64
7x7
ʚ
M031TE3AE Cortex-M0 48 1.8 3.6 -40 105 27 4 128 16
5
4
12
-
-
10
2
3
-
2
-
1
1
-
512
QFN33
4x4
ʚ
M031LE3AE Cortex-M0 48 1.8 3.6 -40 105 42 4 128 16
5
4
12
-
-
12
2
3
-
2
-
1
1
ʚ
512
LQFP48
7x7
ʚ
M031SE3AE Cortex-M0 48 1.8 3.6 -40 105 55 4 128 16
5
4
12
-
-
16
2
3
-
2
-
1
1
ʚ
512
LQFP64
7x7
ʚ
M031LG6AE Cortex-M0 72 1.8 3.6 -40 105 42 4 256 32
7
4
12
12
ʚ
12
2
6
1
2
1
2
1
ʚ
2048
LQFP48
7x7
ʚ
M031LG8AE Cortex-M0 72 1.8 3.6 -40 105 42 4 256 64
7
4
12
12
ʚ
12
2
6
1
2
1
2
1
ʚ
2048
LQFP48
7x7
ʚ
M031SG6AE Cortex-M0 72 1.8 3.6 -40 105 55 4 256 32
7
4
12
12
ʚ
16
2
6
1
2
1
2
1
ʚ
2048
LQFP64
7x7
ʚ
M031SG8AE Cortex-M0 72 1.8 3.6 -40 105 55 4 256 64
7
4
12
12
ʚ
16
2
6
1
2
1
2
1
ʚ
2048
LQFP64
7x7
ʚ
M031KG6AE Cortex-M0 72 1.8 3.6 -40 105 111 4 256 32
7
4
12
12
ʚ
16
2
6
1
2
1
2
1
ʚ
2048
LQFP128
14x14
ʚ
M031KG8AE Cortex-M0 72 1.8 3.6 -40 105 111 4 256 64
7
4
12
12
ʚ
16
2
6
1
2
1
2
1
ʚ
2048
LQFP128
14x14
ʚ
M031SIAAE Cortex-M0 72 1.8 3.6 -40 105 55 8 512 96
9
4
12
12
ʚ
16
2
8
1
-
-
2
1
ʚ
2048
LQFP64
7x7
ʚ
M031KIAAE Cortex-M0 72 1.8 3.6 -40 105 111 8 512 96
9
4
12
12
ʚ
16
2
8
1
-
-
2
1
ʚ
2048
LQFP128
14x14
ʚ
M030TD2AE-重点
QFN33
4x4
ʚ
MP Programmer
RTC
-
Tool
EVB
BPWM (16-bit)
7
Mass Production
PWM (16-bit)
-
Package Size
Timer (32-bit)
-
Package Type
PDMA (ch)
6
APROM Flash (KB)
2
GPIO
-
LDROM Flash (KB)
2
Operating Voltage (min) (V)
SRAM (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Frequency (MHz)
M031 禺
42
Memory
M031FB0AE Cortex-M0 48 1.8 3.6 -40 105 15 2 16
Part No.
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
System
NKM031TB
NLG20F
NKM031TB
NLG32T
NKM031TB
NLG28E
NKM031TC
NLG20F
NKM031TC
NLG32T
NKM031TC
NLG28E
NKM031SD
NLG48L
NKM031SD
NLG32T
NKM031SD
NLG64S
NKM031SD
NLG48L
NKM031SE
NLG32T
NKM031SD
NLG64S
NKM031SE
NLG48L
NKM031KG
NLG48L
NKM031SE
NLG64S
NKM031KG
NLG48L
NKM031KG
NLG64S
NKM031KG
NLG64S
NKNLGM031KG 128KX
NKNLGM031KG 128KX
NKM031KI
NKM031KI
NLG64S
NLG128KX
�倞
M032 禺
MHz PWMƏ另外还符合 IEC-60730 安全规范和 USB 2.0 全速设备Ƌ无须外挂晶振ƌƏ以及 16 K ~ 512 K 字节 Flash 内存˚2 K ~ 96 K 字节
SRAM˛
䎾欽곭㚖滑鼠˚鍵盤˚電競螢幕˚人机界面˚物联网节点设备˚安全系统˚电机控制˚通信系统等
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® M032 系列基於 Arm® Cortex®-M0 内核Ə是为 1.8V ~ 3.6V 工业应用而设计˛配备高效与丰富的外设Ə如Ɲ2 Msps ADC˚最高 144
࡛ M032 禺
Ⱒꝶ暶䚍配置最高 10 路 UART˚144 MHz PWM˚2 Msps ADC˚24 MHz SPI˚UART 支持 1 线模式˚OTA˚USB 2.0 全速设备Ƌ无须外
System
Timer
Analog
Connectivity
Security
Package
Status
Tool
EVB
MP Programmer
-
- 1 1 1 ʚ -
512
TSSOP28 4.4x9.7
ʚ
NK-M032TC
NLG-28E
M032FC1AE Cortex-M0 48 1.8 3.6 -40 105 11 2 32
4
2 2
-
6
-
3
-
1
-
-
- 1 1 1 ʚ -
512
TSSOP20 4.4x6.5
ʚ
NK-M032TC
NLG-20F
M032KG6AE Cortex-M0 72 1.8 3.6 -40 105 107 4 256 32 4 4 12
12
ʚ
16
2
6 1 2 1 2 1 1 ʚ ʚ
2048
LQFP128 14x14
ʚ
NK-M032KG NLG-128KX
M032KG8AE Cortex-M0 72 1.8 3.6 -40 105 107 4 256 64 4 4 12
12
ʚ
16
2
6 1 2 1 2 1 1 ʚ ʚ
2048
LQFP128 14x14
ʚ
NK-M032KG NLG-128KX
M032KIAAE Cortex-M0 72 1.8 3.6 -40 105 107 8 512 96 8 4 12
12
ʚ
16
2
8 1 2 1 2 1 1 ʚ ʚ
2048
LQFP128 14x14
ʚ
NK-M032KI NLG-128KX
M032LC2AE Cortex-M0 48 1.8 3.6 -40 105 38 2 32
8
2 4
-
12
-
12
-
1 1
-
- 2 1 1 ʚ -
512
LQFP48
7x7
ʚ
NK-M032LD
NLG-48L
M032LD2AE Cortex-M0 48 1.8 3.6 -40 105 38 2 64
8
2 4
-
12
-
12
-
1 1
-
- 2 1 1 ʚ -
512
LQFP48
7x7
ʚ
NK-M032LD
NLG-48L
M032LE3AE Cortex-M0 48 1.8 3.6 -40 105 38 4 128 16 4 4 12
-
-
12
2
3
- 2 0 1 1 1 ʚ ʚ
512
LQFP48
7x7
ʚ
NK-M032SE
NLG-48L
M032LG6AE Cortex-M0 72 1.8 3.6 -40 105 38 4 256 32 4 4 12
12
ʚ
12
2
6 1 2 1 2 1 1 ʚ ʚ
2048
LQFP48
7x7
ʚ
NK-M032KG
NLG-48L
M032LG8AE Cortex-M0 72 1.8 3.6 -40 105 38 4 256 64 4 4 12
12
ʚ
12
2
6 1 2 1 2 1 1 ʚ ʚ
2048
LQFP48
7x7
ʚ
NK-M032KG
NLG-48L
M032SE3AE Cortex-M0 48 1.8 3.6 -40 105 51 4 128 16 4 4 12
-
-
16
2
3
- 2 0 1 1 1 ʚ ʚ
512
LQFP64
7x7
ʚ
NK-M032SE
NLG-64S
M032SG6AE Cortex-M0 72 1.8 3.6 -40 105 51 4 256 32 4 4 12
12
ʚ
16
2
6 1 2 1 2 1 1 ʚ ʚ
2048
LQFP64
7x7
ʚ
NK-M032KG
NLG-64S
M032SG8AE Cortex-M0 72 1.8 3.6 -40 105 51 4 256 64 4 4 12
12
ʚ
16
2
6 1 2 1 2 1 1 ʚ ʚ
2048
LQFP64
7x7
ʚ
NK-M032KG
NLG-64S
M032SIAAE Cortex-M0 72 1.8 3.6 -40 105 51 8 512 96 8 4 12
12
ʚ
16
2
8 1 2 1 2 1 1 ʚ ʚ
2048
LQFP64
7x7
ʚ
NK-M032KI
NLG-64S
M032TC1AE Cortex-M0 48 1.8 3.6 -40 105 23 2 32
4
2 2
-
6
-
10
-
1
-
-
- 1 1 1 ʚ -
512
QFN33
4x4
ʚ
NK-M032TC
NLG-32T
M032TD2AE Cortex-M0 48 1.8 3.6 -40 105 23 2 64
8
2 4
-
12
-
10
-
1 1
-
- 2 1 1 ʚ -
512
QFN33
4x4
ʚ
NK-M032LD
NLG-32T
USCI
SPI/ I²S
I²C
PDMA (ch)
NUC2201LE3AE-重点
䗏
䱾
ⵖ
㐼
M032 禺
Mass Production
-
Package Size
1
Package Type
-
SPROM (Byte)
9
EBI
-
USB FS Device
UART
USB FS Device Crystal-less
ACMP
SMBUS (Supported by I2C)
RTC
ADC (12-bit)
6
QSPI
BPWM (16-bit)
-
Timer (32-bit)
2 2
SRAM (KB)
4
GPIO
M032EC1AE Cortex-M0 48 1.8 3.6 -40 105 19 2 32
Core
PWM (16-bit)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro® Arm® Cortex®-M0
挂晶振ƌ˚安全程序 ROM
43
�倞
NuMicro®䗏 䱾 ⵖ 㐼
4���);�4���);�禺
M031BT/M032BT BLE MCU 系列微控制器基于 Arm® Cortex®-M0 内核Ə内置蓝牙低功耗 5.0ƋBLE 5.0ƌ具有丰富的外设和模拟功能Ə适用
于需要具有多种控制功能的无线连接的应用˛M031BT/M032BT BLE MCU 系列运行频率高达 72 MHzƏ具有 64 KB 至 512 KB 闪存˚8 KB
至 96 KB SRAM˚1.8V ~ 3.6V 电源电压Ə在 -40° C ~ +85° C 工作温度范围内支持 5V I/O 容差˛ M031BT/M032BT BLE MCU 系列内置无线
连接和丰富的 I/O 外设Ə使物联网应用更容易˛
䎾欽곭㚖鴞続霃㢊兰腋㹻歏歏劼䱾ⵖ♸餴雴偽絁港錠霃㢊偽絁鵶䱺⸆腋⚡➃⼖毫⥃⨴霃㢊
࡛�M031BT 禺
System
Analog
Connectivity
Security Wireless Package Status
USCI
QSPI
RTC
PWM (16-bit)
WDT
PDMA (ch)
GPIO
QFN
5x5
48
ʚ
MP Programmer
ʚ
ʚ
Tool
EVB
512
QFN
5x5
48
Mass Production
BLE
-
Package Size
SPROM (B)
- 0 1 -
Package Type
USB FS Device Crystal-less
3
USB FS Device
2
SMBUS (Supported by I2C)
UART
- 16
ADC (12-bit)
Cortex48 1.8 3.6 -40 85 29 4 128 &RQÀJXUDEOH 16 5 ʚ 4 12 M0
BPWM (16-bit)
ʚ
64 &RQÀJXUDEOH 8
Timer (32-bit)
512
SRAM (KB)
-
Data Flash (KB)
- 0 1 -
Cortex48 1.8 3.6 -40 85 29 2
M0
APROM Flash (KB)
3
LDROM Flash (KB)
ACMP
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2
Operating Voltage (min) (V)
M031BTYE3AN
Timer
- 16
Operating Frequency (MHz)
M031BTYD2AN
Memory
5 ʚ 4 12 -
Part No.
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
Ⱒꝶ暶䚍⡜⸆罳覰暆佅䭰⽀盘膄⚮〡
NKNLGM031BTYE M031BTY
NKNLGM031BTYE M031BTY
࡛ M032BT 禺
Ⱒꝶ暶䚍 ⡜⸆罳覰暆鸠霃㢊偽곢㢫䭱兪䮸
Memory
Timer
Analog
Security Wireless Package Status
8 1 1 2 1 v
2048
ʚ
QSPI
QFN
8x8
68
ʚ
ʚ
MP Programmer
2
QFN
8x8
68
Tool
EVB
ʚ
Mass Production
BLE
2048
Package Size
SPROM (B)
6 1 1 2 1 v
USCI
2
Package Type
USB FS Device Crystal-less
USB FS Device
SMBUS (Supported by I2C)
Cortex72 1.8 3.6 -40 85 43 8 512 &RQÀJXUDEOH 96 9 ʚ 4 12 12 v 16
M0
Connectivity
UART
Cortex72 1.8 3.6 -40 85 43 4 256 &RQÀJXUDEOH 64 7 ʚ 4 12 12 v 16
M0
ACMP
RTC
ADC (12-bit)
PWM (16-bit)
BPWM (16-bit)
WDT
Timer (32-bit)
PDMA (ch)
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
44
Operating Voltage (min) (V)
M032BTAIAAN
Operating Voltage (max) (V)
M032BTAG8AN
Operating Frequency (MHz)
Part No.
Core
M031BT/M032BT 禺
System
NKNLGM032BTAI M032BTA
NKNLGM032BTAI M032BTA
�倞
M071 禺
256 KB 闪存Ə8 至 20 KB SRAMƏ丰富的通信接口Ƌ例如 USBƏUARTƏSPIƏI2C 等ƌƏ并带有 ADCƏ比较器和其他丰富的模拟接口˛
䎾欽곭㚖智能家电˚电机控制˚白色家电˚工业控制
࡛ M071 禺
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® M071 微控制器是基于 Arm®Cortex®-M0 的 32 位微控制器Ə设计用于针距为 0.65 / 0.8 mm 的家电应用˛ 该系列提供 16 KB 至
Ⱒꝶ暶䚍炽⟝ꤑ岁㐼
System
Memory
Timer
Analog
Connectivity
Security
Package
Status
LQFP44 10x10
ʚ
M071MD2AE Cortex-M0 50 2.5 5.5 -40 105 38 4 68 8
-
4
- 12
-
8
-
-
4 3
- 1 1 -
-
-
-
-
-
LQFP44 10x10
ʚ
M071R1D3AE Cortex-M0 72 2.5 5.5 -40 105 45 8 64 16 9
4
-
6
ʚ
12
-
-
3 3
- 2 2 -
- 1 ʚ ʚ
-
LQFP64 14x14
ʚ
M071R1E3AE Cortex-M0 72 2.5 5.5 -40 105 45 8 128 16 9
4
-
6
ʚ
12
-
-
3 3
- 2 2 -
- 1 ʚ ʚ
-
LQFP64 14x14
ʚ
M071SD3AE Cortex-M0 72 2.5 5.5 -40 105 45 8 64 16 9
4
-
6
ʚ
12
-
-
3 3
- 2 2 -
- 1 ʚ ʚ
-
LQFP64
7x7
ʚ
M071SE3AE Cortex-M0 72 2.5 5.5 -40 105 45 8 128 16 9
4
-
6
ʚ
12
-
-
3 3
- 2 2 -
- 1 ʚ ʚ
-
LQFP64
7x7
ʚ
M071VG4AE Cortex-M0 72 2.5 5.5 -40 105 85 4 256 20 5
-
4 12
ʚ
20
2
ʚ
3 3 2
SPI/ I²S
I²C
USCI
SPI
LIN
Core
- 2 3 2 -
- ʚ
2048
LQFP100 14x14
ʚ
NKM071MD
NLGM071M
NKM071MD
NLGM071M
NKNLGM071R1E M071R1
NuMicro® Arm® Cortex®-M0
-
MP Programmer
-
EVB
-
Mass Production
-
Package Size
SPROM (Byte)
-
Package Type
EBI
USB FS Device Crystal-less
- 1 1 -
USB FS Device
4 3
ISO-7816-3
ACMP
Internal Voltage Reference
-
UART
RTC
ADC (12-bit)
-
Timer/ PWM
8
PWM (16-bit)
PDMA (ch)
-
SRAM (KB)
- 12
APROM Flash (KB)
4
GPIO
-
LDROM Flash (KB)
Timer (32-bit)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Frequency (MHz)
M071MC2AE Cortex-M0 50 2.5 5.5 -40 105 38 4 36 8
Part No.
Tool
䗏
䱾
ⵖ
㐼
NKNLGM071R1E M071R1
NKM071R1E
NLGM071S
NKM071VG
NLGM071V
NKM071R1E
NLGM071S
M071 禺
45
�倞
NuMicro®䗏 䱾 ⵖ 㐼
Mini51 禺
NuMicro® Mini51 系列基於 Arm® Cortex®-M0 内核Ə最高可运行至 50 MHzƏ具 4 K ~ 32 K 字节 Flash˚2 K / 4 K 字节 SRAM˛NuMicro®
Mini51 系列内嵌丰富 ADC˚PWM 给不同的工业应用˚支持低电压复位和欠压检测˚96 位 UID 和 128 位 UCID˛
䎾欽곭㚖无线充电˚智能家电˚安全 / 报警˚温度传感器˚电机˚工业控制等
࡛ Mini51 禺
Ⱒꝶ暶䚍可编程之数据 Flash 区域˚用于存储 ISP 引导代码的 2 K 字节独立 Flash
System
Timer
Analog
Connectivity
Security
Package
Status
ADC (12-bit)
ACMP
PGA
Internal Voltage Reference
UART
SPI
I²C
USCI
SPROM (Byte)
3
-
-
4
-
-
-
-
1
1
1
-
-
MINI51LDE
Cortex-M0 24 2.5 5.5 -40 105 30
2
4
2
2
6
-
-
8
-
2
-
-
1
1
1
-
-
LQFP48
7x7
ʚ
MINI51TDE
Cortex-M0 24 2.5 5.5 -40 105 29
2
4
2
2
6
-
-
8
-
2
-
-
1
1
1
-
-
QFN33
4x4
ʚ
MINI51ZDE
Cortex-M0 24 2.5 5.5 -40 105 29
2
4
2
2
6
-
-
8
-
2
-
-
1
1
1
-
-
QFN33
5x5
ʚ
MINI52FDE
Cortex-M0 24 2.5 5.5 -40 105 17
2
8
2
2
3
-
-
4
-
-
-
-
1
1
1
-
-
MINI52LDE
Cortex-M0 24 2.5 5.5 -40 105 30
2
8
2
2
6
-
-
8
-
2
-
ʚ�
1
1
1
-
-
LQFP48
7x7
ʚ
MINI52TDE
Cortex-M0 24 2.5 5.5 -40 105 29
2
8
2
2
6
-
-
8
-
2
-
-
1
1
1
-
-
QFN33
4x4
ʚ
MINI52ZDE
Cortex-M0 24 2.5 5.5 -40 105 29
2
8
2
2
6
-
-
8
-
2
-
-
1
1
1
-
-
QFN33
5x5
ʚ
MINI54FDE
Cortex-M0 24 2.5 5.5 -40 105 17
2
16
2
2
3
-
-
4
-
-
-
ʚ
1
1
1
-
-
MINI54LDE
Cortex-M0 24 2.5 5.5 -40 105 30
2
16
2
2
6
-
-
8
-
2
-
ʚ
1
1
1
-
-
LQFP48
7x7
ʚ
MINI54TDE
Cortex-M0 24 2.5 5.5 -40 105 29
2
16
2
2
6
-
-
8
-
2
-
ʚ
1
1
1
-
-
QFN33
4x4
ʚ
MINI54ZDE
Cortex-M0 24 2.5 5.5 -40 105 29
2
16
2
2
6
-
-
8
-
2
-
ʚ
1
1
1
-
-
QFN33
5x5
ʚ
TSSOP20 4.4x6.5
TSSOP20 4.4x6.5
TSSOP20 4.4x6.5
ʚ
ʚ
ʚ
MP Programmer
ADC (10-bit)
2
Tool
EVB
ECAP
2
Mass Production
PWM (16-bit)
BPWM (16-bit)
4
Package Size
SRAM (KB)
Timer (32-bit)
2
Package Type
APROM Flash (KB)
Cortex-M0 24 2.5 5.5 -40 105 17
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
Operating Voltage (min) (V)
Operating Frequency (MHz)
Mini51 禺
MINI51FDE
Part No.
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
Memory
NTMini51F
NLGMini51F
NTMini51L
NLGMini51T
NTMini51L
NTMini51L
NLGMini51L
NLGMini51Z
NTMini51F
NLGMini51F
NTMini51L
NLGMini51T
NTMini51L
NTMini51L
NLGMini51L
NLGMini51Z
NTMini51F
NLGMini51F
NTMini51L
NLGMini51T
NTMini51L
NTMini51L
NLGMini51L
NLGMini51Z
࡛ Mini55 禺
Ⱒꝶ暶䚍佅䭰炽⟝ꤑ岁㐼
System
Timer
Analog
Connectivity
Security
Package
Status
ECAP
ADC (10-bit)
ADC (12-bit)
ACMP
PGA
Internal Voltage Reference
UART
SPI
I²C
USCI
SPROM (Byte)
Package Type
Package Size
Mass Production
6
-
-
12
-
2
-
ʚ
2
1
1
-
-
LQFP48
7x7
ʚ
MINI55TDE
Cortex-M0 48 2.1 5.5 -40 105 29
2 17.5
2
2
6
-
-
12
-
2
-
ʚ
2
1
1
-
-
QFN33
4x4
ʚ
Core
MP Programmer
PWM (16-bit)
BPWM (16-bit)
2
Tool
EVB
SRAM (KB)
2
APROM Flash (KB)
2 17.5
GPIO
Cortex-M0 48 2.1 5.5 -40 105 33
LDROM Flash (KB)
Timer (32-bit)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
MINI55LDE
Part No.
46
Memory
NTMini55L
NLGMini51L
NTMini55L
NLGMini51T
�倞
࡛ Mini57 禺
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍2 組采样保持 ADC˚ 可编程增益放大器
System
Memory
Timer
Analog
Connectivity
Security
Package
Status
Internal Voltage Reference
UART
SPI
I²C
USCI
SPROM (Byte)
8
2
ʚ
ʚ
-
-
-
2
512x3
TSSOP28 4.4x9.7
ʚ
MINI57FDE
Cortex-M0 48 2.1 5.5 -40 105 18
2 29.5
4
2
6
2
3
-
8
2
ʚ
ʚ
-
-
-
2
512x3
TSSOP20 4.4x6.5
ʚ
MINI57TDE
Cortex-M0 48 2.1 5.5 -40 105 22
2 29.5
4
2
6
2
3
-
8
2
ʚ
ʚ
-
-
-
2
512x3
Core
QFN33
4x4
ʚ
NTNLGMini57E Mini57E
NTMini57E
NTMini57E
NLGMini57F
NLGMini57T
࡛ Mini58 禺
Ⱒꝶ暶䚍可配置数据 Flash
System
Memory
Timer
Analog
Connectivity
Security
Package
Status
ACMP
PGA
Internal Voltage Reference
UART
SPI
I²C
USCI
SPROM (Byte)
-
4
-
-
-
ʚ
2
1
2
-
512
MINI58LDE
Cortex-M0 50 2.5 5.5 -40 105 30 2.5
32
4
2
6
-
-
8
-
2
-
ʚ
2
1
2
-
512
LQFP48
7x7
ʚ
MINI58TDE
Cortex-M0 50 2.5 5.5 -40 105 29 2.5
32
4
2
6
-
-
8
-
2
-
ʚ
2
1
2
-
512
QFN33
4x4
ʚ
MINI58ZDE
Cortex-M0 50 2.5 5.5 -40 105 29 2.5
32
4
2
6
-
-
8
-
2
-
ʚ
2
1
2
-
512
QFN33
5x5
ʚ
Core
TSSOP20 4.4x6.5
ʚ
NTMini58L
NLGMini51F
NTMini58L
NLGMini51T
NTMini58L
NTMini58L
NLGMini51L
NLGMini51Z
䗏
䱾
ⵖ
㐼
Mini51 禺
ADC (12-bit)
-
MP Programmer
ADC (10-bit)
6
EVB
ECAP
2
Mass Production
PWM (16-bit)
BPWM (16-bit)
4
Package Size
SRAM (KB)
Timer (32-bit)
32
Package Type
LDROM Flash (KB)
Cortex-M0 50 2.5 5.5 -40 105 17 2.5
GPIO
APROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
MINI58FDE
Part No.
Tool
NuMicro® Arm® Cortex®-M0
PGA
-
MP Programmer
ACMP
3
EVB
ADC (12-bit)
2
Mass Production
ECAP
ADC (10-bit)
6
Package Size
PWM (16-bit)
BPWM (16-bit)
2
Package Type
Timer (32-bit)
4
APROM Flash (KB)
2 29.5
GPIO
Cortex-M0 48 2.1 5.5 -40 105 22
LDROM Flash (KB)
SRAM (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
Operating Voltage (min) (V)
Operating Frequency (MHz)
MINI57EDE
Part No.
Tool
47
�倞
NuMicro®䗏 䱾 ⵖ 㐼
M051 禺
NuMicro® M051 系列基於 Arm® Cortex®-M0 内核Ə内嵌丰富資源與外设Ə如Ɲ8 K ~ 256 K 字节 Flash˚4 K ~ 20 K 字节 SRAM˚用于存储
ISP 引导代码的独立 4 K / 8 K 字节 FlashƏ最高支持 20 路 ADC 以及 24 路 PWM˛支持低电压复位和欠压检测˚96 位 UID 與 128 位 UCID
等功能˛
䎾欽곭㚖工业控制˚安全 / 报警˚温度传感器˚电机等
࡛ M051 禺
Ⱒꝶ暶䚍4 K 字节数据闪存˚支持硬件除法器˚支持 4 组比较器
Timer
Analog
Connectivity
Package
Status
Tool
GPIO
LDROM Flash (KB)
APROM Flash (KB)
Data Flash (KB)
SRAM (KB)
WDT
WWDT
Timer (32-bit)
PWM (16-bit)
ADC (12-bit)
ACMP
UART
LIN
SPI
I²C
EBI
Package Type
Package Size
Mass Production
2.5 5.5 -40
85
40
4
8
4
4
ʚ
-
4
8
8
2
2
2
2
1
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M052LDE
Cortex-M0
50
2.5 5.5 -40 105 40
4
8
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M052LDN
Cortex-M0
50
2.5 5.5 -40
85
40
4
8
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M052ZBN
Cortex-M0
50
2.5 5.5 -40
85
24
4
8
4
4
ʚ
-
4
5
5
2
2
2
1
1
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M052ZDE
Cortex-M0
50
2.5 5.5 -40 105 24
4
8
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M052ZDN
Cortex-M0
50
2.5 5.5 -40
85
24
4
8
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M054LBN
Cortex-M0
50
2.5 5.5 -40
85
40
4
16
4
4
ʚ
-
4
8
8
2
2
2
2
1
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M054LDE
Cortex-M0
50
2.5 5.5 -40 105 40
4
16
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M054LDN
Cortex-M0
50
2.5 5.5 -40
85
40
4
16
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M054ZBN
Cortex-M0
50
2.5 5.5 -40
85
24
4
16
4
4
ʚ
-
4
5
5
2
2
2
1
1
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M054ZDE
Cortex-M0
50
2.5 5.5 -40 105 24
4
16
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M054ZDN
Cortex-M0
50
2.5 5.5 -40
85
24
4
16
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M058LBN
Cortex-M0
50
2.5 5.5 -40
85
40
4
32
4
4
ʚ
-
4
8
8
2
2
2
2
1
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M058LDE
Cortex-M0
50
2.5 5.5 -40 105 40
4
32
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M058LDN
Cortex-M0
50
2.5 5.5 -40
85
40
4
32
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M058ZBN
Cortex-M0
50
2.5 5.5 -40
85
24
4
32
4
4
ʚ
-
4
5
5
2
2
2
1
1
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M058ZDE
Cortex-M0
50
2.5 5.5 -40 105 24
4
32
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M058ZDN
Cortex-M0
50
2.5 5.5 -40
85
24
4
32
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M0516LBN
Cortex-M0
50
2.5 5.5 -40
85
40
4
64
4
4
ʚ
-
4
8
8
2
2
2
2
1
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M0516LDE
Cortex-M0
50
2.5 5.5 -40 105 40
4
64
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M0516LDN
Cortex-M0
50
2.5 5.5 -40
85
40
4
64
4
4
ʚ
ʚ
4
8
8
4
2
2
2
2
ʚ
LQFP48
7x7
ʚ
NK-M051L NLG-M051L
M0516ZBN
Cortex-M0
50
2.5 5.5 -40
85
24
4
64
4
4
ʚ
-
4
5
5
2
2
2
1
1
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M0516ZDE
Cortex-M0
50
2.5 5.5 -40 105 24
4
64
4
4
ʚ
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
M0516ZDN
Cortex-M0
50
2.5 5.5 -40
4
64
4
4
v
ʚ
4
5
5
4
2
2
1
2
-
QFN33
5X5
ʚ
NK-M051L NLG-M051Z
85
24
MP Programmer
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
50
EVB
Operating Voltage (min) (V)
Cortex-M0
Operating Voltage (max) (V)
Operating Frequency (MHz)
Mini51 禺
M052LBN
Part No.
M058SSAN-重点
48
Memory
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
System
�倞
࡛ M0518 禺
Memory
Timer
Analog
Connectivity
Package
Status
PDMA (ch)
Timer (32-bit)
WWDT
WDT
PWM (16-bit)
BPWM (16-bit)
ADC (12-bit)
UART
SPI
I²C
Package Type
Package Size
Mass Production
12
12
8
6
1
2
LQFP48
7x7
ʚ
M0518LD2AE
Cortex-M0 50 2.5 5.5 -40 105
42
4
68 &RQÀJXUDEOH
8
-
ʚ ʚ 4
12
12
8
6
1
2
LQFP48
7x7
ʚ
M0518SC2AE
Cortex-M0 50 2.5 5.5 -40 105
56
4
36 &RQÀJXUDEOH
8
-
ʚ ʚ 4
12
12
8
6
1
2
LQFP64
7x7
ʚ
M0518SD2AE
Cortex-M0 50 2.5 5.5 -40 105
56
4
68 &RQÀJXUDEOH
8
-
ʚ ʚ 4
12
12
8
6
1
2
LQFP64
7x7
ʚ
Data Flash (KB)
Core
࡛ M0519 禺
Ⱒꝶ暶䚍支持硬件除法器˚2 组独立 ADC˚2 组 OPA˚3 组比较器
System
NLGM0518S
NTM0518S
ʚ
4
2
4
-
16
2
2
2
1
1
LQFP48
7X7
ʚ
128 &RQÀJXUDEOH
16
ʚ
ʚ
4
2
4
-
16
2
2
2
1
1
LQFP48
7X7
ʚ
8
64
16
ʚ
ʚ
4
2
8
-
16
2
2
2
2
1
LQFP64
7X7
ʚ
2.5 5.5 -40 105 51
8
128 &RQÀJXUDEOH
16
ʚ
ʚ
4
2
8
-
16
2
2
2
2
1
LQFP64
7X7
ʚ
2.5 5.5 -40 105 82
8
128 &RQÀJXUDEOH
16
ʚ
ʚ
4
2 12 6
16
3
2
2
3
1 LQFP100 14X14
ʚ
࡛ M0564 禺
NLGM0518S
Tool
NTM0519V
NLGM0519L
NTM0519V
NLGM0519S
NTM0519V
NLGM0519V
NTM0519V
NTM0519V
NLGM0519L
NLGM0519S
Ⱒꝶ暶䚍可配置 Flash 内存˚支持硬件除法器˚支持 8 组 UART˚高達 144 MHz PWM˚800 ksps ADC
System
Timer
Analog
Connectivity
Security
Package
Status
Package Size
Mass Production
7x7
ʚ
M0564LG4AE Cortex-M0 72 2.5 5.5 -40 105 41 4 128 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ 10
2
3
2
2
3
2
ʚ
2048
LQFP48
7x7
ʚ
M0564SE4AE Cortex-M0 72 2.5 5.5 -40 105 53 4 256 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ 15
2
3
2
2
3
2
ʚ
2048
LQFP64
7x7
ʚ
M0564SG4AE Cortex-M0 72 2.5 5.5 -40 105 53 4 128 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ 15
2
3
2
2
3
2
ʚ
2048
LQFP64
7x7
ʚ
M0564VG4AE Cortex-M0 72 2.5 5.5 -40 105 85 4 256 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ 20
2
3
2
2
3
2
ʚ
2048
LQF100 14X14
I²C
USCI
UART
ACMP
WWDT
WDT
PDMA (ch)
ʚ
MP Programmer
Package Type
LQFP48
Tool
EVB
SPROM (Byte)
2048
SPI/ I²S
ʚ
ISO-7816-3
2
ADC (12-bit)
3
Timer/ PWM
2
RTC
PWM (16-bit)
2
SRAM (KB)
3
Data Flash (KB)
2
GPIO
M0564LE4AE Cortex-M0 72 2.5 5.5 -40 105 41 4 128 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ 10
Core
EBI
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Frequency (MHz)
Operating Voltage (min) (V)
Part No.
Memory
䗏
䱾
ⵖ
㐼
M051 禺
ʚ
NLGM0518L
MP Programmer
16
4
NTM0518S
NTM0518S
EVB
Mass Production
4
GPIO
Package Size
Cortex-M0 72
Package Type
M0519VE3AE
I²C
Cortex-M0 72
SPI
M0519SE3AE
LIN
2.5 5.5 -40 105 51
UART
Cortex-M0 72
ACMP
M0519SD3AE
ADC (12-bit)
8
ECAP
2.5 5.5 -40 105 38
EPWM (16-bit)
Cortex-M0 72
BPWM (16-bit)
M0519LE3AE
NLGM0518L
Status
WWDT
64
Package
Timer (32-bit)
8
Connectivity
WDT
2.5 5.5 -40 105 38
Analog
SRAM (KB)
Cortex-M0 72
Timer
Data Flash (KB)
APROM Flash (KB)
M0519LD3AE
Core
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NTM0518S
NuMicro® Arm® Cortex®-M0
SRAM (KB)
ʚ ʚ 4
MP Programmer
LDROM Flash (KB)
-
EVB
GPIO
8
APROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
36 &RQÀJXUDEOH
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
4
Operating Voltage (min) (V)
42
Operating Voltage (max) (V)
Cortex-M0 50 2.5 5.5 -40 105
Operating Frequency (MHz)
M0518LC2AE
Part No.
Tool
NuMicro®䗏 䱾 ⵖ 㐼
System
Ⱒꝶ暶䚍可配置数据闪存˚支持 6 组 UART 比较器˚支持 24 路高達 100 MHz PWM
NTM0564V
NLGM0564L
NTM0564V
NLGM0564S
NTM0564V
NLGM0564V
NTM0564V
NTM0564V
NLGM0564L
NLGM0564S
49
�倞
NuMicro®䗏 䱾 ⵖ 㐼
NUC029 禺
NuMicro®NUC029 系列是为工业应用而设计的Ə拥有强大的抗干扰 EFT 特性Ə基於 ARM® Cortex®-M0 内核Ə5V 工作电压˛ NUC029 系列
提供 16 K ~ 256 K 字节 FlashƏ2 K ~ 20 K 字节 SRAMƏ内嵌高效能外设Ə如Ɲ12 位 ADC˚UART˚PWM˚SPI˚I²C 等˛ 个别型号支持硬
件除法器˚比较器˚无须外挂晶振Ə直接支持 USB 2.0 全速设备˛
䎾欽곭㚖工业控制˚高精度仪表˚人机界面˚电机控制˚通信系统等
࡛ NUC029 禺
Ⱒꝶ暶䚍5V 工业控制˚高抗干扰 (EFT 4.4 kVƏESD HBM 8 kV)
- 2 3 2 1 ʚ ʚ
NUC029LAN Cortex-M0 50 2.5 5.5 -40 85 40 4 64
-
- ʚ
-
TSSOP20 4.4x6.5
ʚ
2048
LQFP128
14x14
ʚ
-
-
8
4
2
2
-
-
-
-
-
ʚ
-
LQFP48
7x7
ʚ
NUC029LDE Cortex-M0 50 2.5 5.5 -40 105 42 4 68 &RQÀJXUDEOH 20 - 4 12 -
-
8
-
4
1
-
-
-
-
-
-
-
LQFP48
7x7
ʚ
NUC029LEE Cortex-M0 72 2.5 5.5 -40 105 31 8 128 &RQÀJXUDEOH 16 9 4 4 ʚ - 10 -
2
1
-
-
- 1 ʚ ʚ
-
LQFP48
7x7
ʚ
NUC029LGE Cortex-M0 72 2.5 5.5 -40 105 35 4 256 &RQÀJXUDEOH 20 5 4 10 ʚ - 9
2
3
- 2 3 2 1 ʚ ʚ
2048
LQFP48
7x7
ʚ
NUC029NAN Cortex-M0 50 2.5 5.5 -40 85 40 4 64
4
4
- 4 8
-
-
-
8
4
2
2
-
-
-
-
-
ʚ
-
QFN48
7x7
ʚ
NUC029SDE Cortex-M0 50 2.5 5.5 -40 105 56 4 68 &RQÀJXUDEOH 20 - 4 12 -
-
8
-
4
1
-
-
-
-
-
-
-
LQFP64
7x7
ʚ
NUC029SEE Cortex-M0 72 2.5 5.5 -40 105 45 8 128 &RQÀJXUDEOH 16 9 4 6 ʚ - 12 -
3
2
-
-
- 1 ʚ ʚ
-
LQFP64
7x7
ʚ
NUC029SGE Cortex-M0 72 2.5 5.5 -40 105 49 4 256 &RQÀJXUDEOH 20 5 4 12 ʚ - 15 2
3
- 2 3 2 1 ʚ ʚ
2048
LQFP64
7x7
ʚ
NUC029TAN Cortex-M0 50 2.5 5.5 -40 85 24 4 32
4
4
- 4 5
-
-
5
3
2
1
-
-
-
-
-
ʚ
-
QFN33
4x4
ʚ
NUC029ZAN Cortex-M0 50 2.5 5.5 -40 85 24 4 64
4
4
- 4 5
-
-
5
3
2
1
-
-
-
-
-
ʚ
-
QFN33
5x5
ʚ
4
4
- 4 8
MP Programmer
3
-
Tool
EVB
UART
NUC029KGE Cortex-M0 72 2.5 5.5 -40 105 86 4 256 &RQÀJXUDEOH 20 5 4 12 ʚ - 20 2
-
Status
Mass Production
ACMP
1
Package Size
ACMP
ADC (12-bit)
RTC
PWM (16-bit)
Timer/ PWM
PDMA (ch)
1
GPIO
2
NUC029FAE Cortex-M0 24 2.5 5.5 -40 105 17 2 16 &RQÀJXUDEOH 2 - 2 3 - 4 -
Package
Package Type
Security
Analog
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Connectivity
SPROM (Byte)
Timer
EBI
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
SPI
Memory
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min)
Operating Voltage (max)
Operating Frequency (MHz)
NUC029禺
50
Part No.
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
System
NTNUC029F
NLGNUC029FA
NTNUC029SG
NLGNUC029KG
NTNUC029SD
NLGNUC029LD
NKNUC029L
NTNUC029SE
NLGNUC029LD
NLGNUC029LE
NTNUC029SG
NLGNUC029LG
NTNUC029SD
NLGNUC029SD
NTNUC029SG
NLGNUC029SG
NKNUC029L
NLGNUC029ZA
NKNUC029L
NTNUC029SE
NKNUC029L
NLGNUC029NA
NLGNUC029SE
NLGNUC029TA
�倞
NUC121 禺
在线系统编程ƋIn-System Programmingƌ用途˛本系列支持 USB 接口Ə内建 48 MHz 高速振荡器而无须外挂晶振Ƌ不包含 NUC123ƌƏ最
高支持 24 路 PWM 和 20 路 ADC˛
Ⱒꝶ暶䚍大于 4 K 字节独立 Flash 作为在线系统编程ƋIn-System Programmingƌ用途ƞ支持 USB 2.0 全速设备Ə无须外部晶振ƋNUC123
不支持无须外部晶振的功能ƌ˛NUC125/126 支持电压调整接口ƋVAIƌƏ有獨立的 VDDIOƏ 可支援 1.8V 至 5.5V 电压范围Ə彈性滿足不同
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® NUC121 系列基於 Arm® Cortex®-M0 内核Ə具 32 K ~ 256 K 字节 Flash˚8 K ~ 20 K 字节 SRAM˚4 K 字节 独立 Flash 字节作为
接口電壓的需求˛
䎾欽곭㚖USB 复合设备˚电竞鼠标˚电竞键盘˚USB 耳机˚工业控制˚物联网设备 ... 等
Package
Status
10
1 1 2 1 1 1 ʚ
512
LQFP48
7x7
ʚ
NUC121SC2AE Cortex-M0 50 2.5 5.5 -40 105 52 4.5 32 &RQÀJXUDEOH 8 5 ʚ ʚ 4 24 17
12
1 1 2 1 1 1 ʚ
512
LQFP64
7x7
ʚ
NUC121ZC2AE Cortex-M0 50 2.5 5.5 -40 105 22 4.5 32 &RQÀJXUDEOH 8 5 ʚ ʚ 4 17 7
4
1 1 2 1 1 1 ʚ
512
QFN33
5x5
ʚ�
MP Programmer
NUC121LC2AE Cortex-M0 50 2.5 5.5 -40 105 38 4.5 32 &RQÀJXUDEOH 8 5 ʚ ʚ 4 24 14
Tool
EVB
Mass Production
Package Size
Security
Package Type
Connectivity
SPROM (Byte)
BPWM (16-bit)
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
PDMA (ch)
Analog
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
LIN
UART
Timer
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
GPIO
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (max) (V)
Operating Voltage (min) (V)
Core
Operating Frequency (MHz)
Part No.
Memory
ADC (12-bit)
System
NTNLGNUC121S NUC121S
NTNLGNUC121S NUC121Z
Timer
Analog
Connectivity
Security
Package
Status
Package Type
Package Size
Mass Production
LQFP64
7x7
ʚ
NUC125ZC2AE Cortex-M0 50 2.5 5.5 -40 105 22 4.5 32 &RQÀJXUDEOH 8 5 ʚ ʚ 4 17 7
4
1 1 2 1 1 1 ʚ
512
QFN33
5x5
ʚ
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
PDMA (ch)
Core
MP Programmer
SPROM (Byte)
512
Tool
EVB
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
LIN
UART
1 1 2 1 1 1 ʚ
BPWM (16-bit)
11
SRAM (KB)
NUC125SC2AE Cortex-M0 50 2.5 5.5 -40 105 51 4.5 32 &RQÀJXUDEOH 8 5 ʚ ʚ 4 23 16
Data Flash (KB)
ʚ
APROM Flash (KB)
7x7
GPIO
LQFP48
LDROM Flash (KB)
ADC (12-bit)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
512
Operating Voltage (min) (V)
1 1 2 1 1 1 ʚ
Operating Voltage (max) (V)
9
Operating Frequency (MHz)
NUC125LC2AE Cortex-M0 50 2.5 5.5 -40 105 37 4.5 32 &RQÀJXUDEOH 8 5 ʚ ʚ 4 23 13
Part No.
NUC121禺
Memory
䗏
䱾
ⵖ
㐼
NTNLGNUC121S NUC121L
Ⱒꝶ暶䚍电压调整接口ƋVAIƌ支援 1.8V 至 5.5V 电压范围˚最高支持 12 路 ADC
System
NuMicro® Arm® Cortex®-M0
࡛ NUC121 禺
NTNLGNUC125S NUC125L
NTNLGNUC125S NUC125S
NTNLGNUC125S NUC125Z
51
�倞
Memory
Connectivity
Package
Status
I²C
I²S
PS/2 Device
USB FS Device
Package Type
Package Size
Mass Production
2
1
1
1
LQFP48
7x7
ʚ
NUC123LC2AN1 Cortex-M0 72 2.5 5.5 -40 85 36 4 36 &RQÀJXUDEOH 12 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP48
7x7
ʚ
NUC123LD4AE0 Cortex-M0 72 2.5 5.5 -40 105 36 4 68 &RQÀJXUDEOH 20 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP48
7x7
ʚ
NUC123LD4AN0 Cortex-M0 72 2.5 5.5 -40 85 36 4 68 &RQÀJXUDEOH 20 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP48
7x7
ʚ
NUC123SC2AE1 Cortex-M0 72 2.5 5.5 -40 105 47 4 36 &RQÀJXUDEOH 12 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP64
7x7
ʚ
NUC123SC2AN1 Cortex-M0 72 2.5 5.5 -40 85 47 4 36 &RQÀJXUDEOH 12 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP64
7x7
ʚ
NUC123SD4AE0 Cortex-M0 72 2.5 5.5 -40 105 47 4 68 &RQÀJXUDEOH 20 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP64
7x7
ʚ
NUC123SD4AN0 Cortex-M0 72 2.5 5.5 -40 85 47 4 68 &RQÀJXUDEOH 20 6 ʚ ʚ 4 4
8
2
3
2
1
1
1
LQFP64
7x7
ʚ
NUC123ZC2AE1 Cortex-M0 72 2.5 5.5 -40 105 20 4 36 &RQÀJXUDEOH 12 6 ʚ ʚ 4 3
3
1
3
1
1
-
1
QFN33
5x5
ʚ
NUC123ZC2AN1 Cortex-M0 72 2.5 5.5 -40 85 20 4 36 &RQÀJXUDEOH 12 6 ʚ ʚ 4 2
3
1
3
1
1
-
1
QFN33
5x5
ʚ
NUC123ZD4AE0 Cortex-M0 72 2.5 5.5 -40 105 20 4 68 &RQÀJXUDEOH 20 6 ʚ ʚ 4 3
3
1
3
1
1
-
1
QFN33
5x5
ʚ
NUC123ZD4AN0 Cortex-M0 72 2.5 5.5 -40 85 20 4 68 &RQÀJXUDEOH 20 6 ʚ ʚ 4 2
3
1
3
1
1
-
1
QFN33
5x5
ʚ
PDMA (ch)
SRAM (KB)
MP Programmer
SPI
3
Tool
EVB
UART
2
Data Flash (KB)
8
GPIO
ADC (10-bit)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Analog
NUC123LC2AE1 Cortex-M0 72 2.5 5.5 -40 105 36 4 36 &RQÀJXUDEOH 12 6 ʚ ʚ 4 4
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
Operating Voltage (min) (V)
Part No.
Timer
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
System
Operating Frequency (MHz)
NuMicro®䗏 䱾 ⵖ 㐼
࡛ NUC123 禺
NKNUC123SE
NLGNUC123L
NKNUC123SE
NLGNUC123L
NKNUC123SE
NLGNUC123S
NKNUC123SE
NLGNUC123S
NKNUC123SE
NLGNUC123Z
NKNUC123SE
NKNUC123SE
NKNUC123SE
NKNUC123SE
NKNUC123SE
NKNUC123SE
NKNUC123SE
NLGNUC123L
NLGNUC123L
NLGNUC123S
NLGNUC123S
NLGNUC123Z
NLGNUC123Z
NLGNUC123Z
࡛ NUC126 禺 (NRND)
System
Timer
Connectivity
Analog
Package Size
Mass Production
3
2 2 3 2 1 ʚ ʚ
2048
LQFP48
7x7
ʚ
-
9
2
3
2 2 3 2 1 ʚ ʚ
2048
LQFP48
7x7
ʚ
-
9
2
3
2 2 3 2 1 ʚ ʚ
2048
QFN48
7x7
ʚ
- 15 2
3
2 2 3 2 1 ʚ ʚ
2048
LQFP64
7x7
ʚ
Cortex72 2.5 5.5 -40 105 49 4 256 &RQÀJXUDEOH 20 5 v ʚ 4 12 ʚ
M0
- 15 2
3
2 2 3 2 1 ʚ ʚ
2048
LQFP64
7x7
ʚ
Cortex72 2.5 5.5 -40 105 81 4 256 &RQÀJXUDEOH 20 5 v ʚ 4 12 ʚ
M0
- 20 2
3
2 2 3 2 1 ʚ ʚ
2048
LQFP100 14x14
ʚ
MP Programmer
Package Type
2
EVB
SPROM (Byte)
Cortex72 2.5 5.5 -40 105 49 4 128 &RQÀJXUDEOH 20 5 v ʚ 4 12 ʚ
M0
EBI
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
ISO-7816-3
UART
ACMP
Cortex72 2.5 5.5 -40 105 35 4 128 &RQÀJXUDEOH 20 5 v ʚ 4 10 ʚ
M0
Tool
Status
ADC (12-bit)
Cortex72 2.5 5.5 -40 105 49 4 256 &RQÀJXUDEOH 20 5 v ʚ 4 10 ʚ
M0
Package
9
BPWM (16-bit)
RTC
Cortex72 2.5 5.5 -40 105 35 4 128 &RQÀJXUDEOH 20 5 v ʚ 4 10 ʚ
M0
Security
-
PWM (16-bit)
Timer/ PWM
WWDT
WDT
PDMA (ch)
SRAM (KB)
Data Flash (KB)
52
APROM Flash (KB)
NUC126VG4AE
GPIO
NUC126SG4AE
LDROM Flash (KB)
NUC126SE4AE
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
NUC126NE4AE
Memory
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
NUC126LG4AE
Operating Voltage (min) (V)
Core
NUC126LE4AE
Operating Voltage (max) (V)
Part No.
Operating Frequency (MHz)
NUC121禺
Ⱒꝶ暶䚍最高支持 12 路 144 MHz PWM ˚20 路 800 kSPS ADC 和硬件除法器
NTNLGNUC126V NUC126L
NTNLGNUC126V NUC126L
NTNLGNUC126V NUC126N
NTNLGNUC126V NUC126S
NTNLGNUC126V NUC126S
NTNLGNUC126V NUC126V
�倞
࡛ NUC1261 禺
System
Timer
2
3
2 3 2 1 ʚ ʚ 2048
-
9
2
3
2 3 2 1 ʚ ʚ 2048
Cortex72 2.5 5.5 -40 105 49 4 128 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ
M0
- 15 2
3
2 3 2 1 ʚ ʚ 2048
Cortex72 2.5 5.5 -40 105 49 4 256 &RQÀJXUDEOH 20 5 ʚ ʚ 4 12 ʚ
M0
- 15 2
3
2 3 2 1 ʚ ʚ 2048
ʚ
7x7
ʚ
7x7
ʚ
7x7
ʚ
7x7
ʚ
LQFP
48
LQFP
48
LQFP
64
LQFP
64
NTNLGNLGNUC1261S NUC126N NUC126L
NTNLGNLGNUC1261S NUC126L NUC126L
NTNLGNLGNUC1261S NUC126L NUC126N
NTNLGNLGNUC1261S NUC126S NUC126S
NTNLGNLGNUC1261S NUC126S NUC126S
࡛ NUC1262 禺
新唐科技 NuMicro® NUC1262 系列基于 Arm® Cortex®-M23 内核Ə支持 Arm®v8-M 指令集架构并自带除法器Ə工作频率高达 72 MHzƏ内建
128 K 字节闪存 及 20 K 字节 SRAM˛内建灯条控制接口ƋLED Light Strip Interface, LLSIƌƞ内建 48 MHz 高速振荡器而无须外挂晶振的
USB 2.0 全速装置接口Ə可以应用于计算机与行动周边Ə可运作在 2.5V 至 5.5V 宽工作电压和����ʝ�至����ʝ�工业温度范围˛
NuMicro® Arm® Cortex®-M0
9
7x7
MP Programmer
-
QFN
48
EVB
2 3 2 1 ʚ ʚ 2048
Tool
Status
Mass Production
3
Package Size
2
Package Type
9
SPROM (Byte)
-
EBI
Cortex72 2.5 5.5 -40 105 35 4 256 &RQÀJXUDEOH 20 5 ʚ ʚ 4 10 ʚ
M0
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
USCI
I²C
ISO-7816-3
UART
ACMP
Cortex72 2.5 5.5 -40 105 35 4 128 &RQÀJXUDEOH 20 5 ʚ ʚ 4 10 ʚ
M0
Security Package
ADC (12-bit)
BPWM (16-bit)
RTC
PWM (16-bit)
Timer/ PWM
WWDT
WDT
Cortex72 2.5 5.5 -40 105 35 4 128 &RQÀJXUDEOH 20 5 ʚ ʚ 4 10 ʚ
M0
Connectivity
Analog
PDMA (ch)
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
GPIO
NUC1261SG4AE
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
NUC1261SE4AE
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
NUC1261LG4AE
Operating Voltage (max) (V)
NUC1261LE4AE
Operating Voltage (min) (V)
Core
NUC1261NE4AE
Operating Frequency (MHz)
Part No.
Memory
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍最高支持 12 路 144 MHz PWM ˚20 路 800 ksps ADC 和硬件除法器
䗏
䱾
ⵖ
㐼
Ⱒꝶ暶䚍最高支持 10 路 灯条控制接口ƋLED Light Strip Interface, LLSIƌ ˚最高支持 24 路 72 MHz BPWM˚最高支持 10 路 800 ksps ADC
和 10 路 PDMA
Status
Mass Production Programmer
NKNUC1262SE
NLGNUC126N
NKNUC1262SE
NLGNUC126S
8
2 2 2 1 ʚ
2048
QFN48 7x7
8
8
2 2 2 1 ʚ
2048
LQFP48 7x7
ʚ
8
10 2 2 2 1 ʚ
2048
LQFP64 7x7
ʚ
8
8
2048
QFN48 5x5
ʚ
NKNUC1262SE
NKNUC1262SE
NUC121 禺
Evaluation Board
(Ordering No.)
ʚ
8
2 2 2 1 ʚ
Tool
Mass Production
Cortex72 2.5 5.5 -40 105 38 4 128 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 M23
Package
Package Size
Cortex72 2.5 5.5 -40 105 50 4 128 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 M23
Security
Package Type
Cortex72 2.5 5.5 -40 105 38 4 128 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 M23
Connectivity
SPROM(B)
RTC
BPWM(16-bit)
Timer/ PWM
WWDT
WDT
PDMA(ch)
Cortex72 2.5 5.5 -40 105 38 4 128 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 M23
Analog
USB FS Device Crystal-less
USB FS Device
SPI/ I²S
I²C
UART
LLSI
Timer
SRAM(KB)
Data Flash(KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
NUC1262YE4AE
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
NUC1262SE4AE
Operating Voltage (min) (V)
NUC1262LE4AE
Operating Voltage (max) (V)
Core
NUC1262NE4AE
Operating Frequency (MHz)
Part No.
Memory
ADC(12-bit)
System
NLGNUC126L
NLGNUC126Y
࡛ NUC1263 禺
新唐科技 NuMicro® NUC1263 系列基于 Arm® Cortex®-M23 内核Ə支持 Arm®v8-M 指令集架构并自带除法器Ə工作频率高达 72 MHzƏ内建
64 K 字节闪存及 20 K 字节 SRAM˛内建灯条控制接口ƋLED Light Strip Interface, LLSIƌ, I3C slave 沟通接口ƞ内建 48 MHz 高速振荡器而
无须外挂晶振的 USB 2.0 全速装置接口Ə可以应用于计算机与行动周边Ə可运作在 2.5V 至 5.5V 宽工作电压和����ʝ�至����ʝ�工业温度范
围˛
Ⱒꝶ暶䚍最高支持 6 路 灯条控制接口ƋLED Light Strip Interface, LLSIƌ ˚最高支持 24 路 144 MHz BPWM˚2 路 I3C 接口˚16 路 800
ksps ADC 和 10 路 PDMA
53
�倞
Timer
Connectivity
Analog
4
2
6 3 3 3 1
ʚ
2048
4
2
6 3 3 3 1
ʚ
2048
4
2
6 3 3 3 1
ʚ
2048
QFN
7x7
48
LQFP
7x7
48
LQFP
7x7
64
NKNLGNUC1263S NUC126Z
2023 Q2
NKNLGNUC1263S NUC126N
2023 Q2
NKNLGNUC1263S NUC126L
2023 Q2
NKNLGNUC1263S NUC126S
2023 Q2
NUC130 禺
NuMicro® NUC130/131/140/230/240 CAN 总线系列Ə基於 Arm® Cortex®-M0 内核Ə具 32 K ~ 128 K 字节闪存˚4 K ~ 16 K 字节 SRAM˚4
K / 8 K 独立 Flash 字节作为在线系统编程 (In-System Programming) 用途ƞ该系列是专门为 CAN 应用而设计的Ə并且还配备了各种通用丰富
外设Ə如ƝLIN˚USB 2.0 全速设备˚ UART˚ I²C˚ADC˚ 比较器Ə支持低电压复位和欠压检测˛
USB FS
NUC130 CAN 系列
LIN
CAN
ʚ
ʚ
NUC131
NUC130
ʚ
ʚ
ʚ
NUC140
ʚ
ʚ
ʚ
ʚ
NUC240
ʚ
ʚ
ʚ
NUC230
System
Memory
Timer
Connectivity
Analog
Package
Tool
Status
MP Programmer
Mass Production
2
1
-
-
LQFP 48 7x7
ʚ
NK-NUC131 NLG-NUC131L
NUC131LD2AE Cortex-M0 50 2.5 5.5 -40 105 56 4 68 &RQÀJXUDEOH 8 ʚ ʚ 4 12 12
8
6
3
1
2
1
-
-
LQFP 48 7x7
ʚ
NK-NUC131 NLG-NUC131L
NUC131SC2AE Cortex-M0 50 2.5 5.5 -40 105 42 4 36 &RQÀJXUDEOH 8 ʚ ʚ 4 12 12
8
6
3
1
2
1
-
-
LQFP 64 7x7
ʚ
NK-NUC131 NLG-NUC131S
NUC131SD2AE Cortex-M0 50 2.5 5.5 -40 105 42 4 68 &RQÀJXUDEOH 8 ʚ ʚ 4 12 12
8
6
3
1
2
1
-
-
LQFP 64 7x7
ʚ
NK-NUC131 NLG-NUC131S
NUC1311LC2AE Cortex-M0 50 2.5 5.5 -40 105 42 4 36 &RQÀJXUDEOH 8 ʚ ʚ 4 12 -
8
4
3
1
1
1
-
-
LQFP 48 7x7
ʚ
NK-NUC1311 NLG-NUC1311
NUC1311LD2AE Cortex-M0 50 2.5 5.5 -40 105 42 4 68 &RQÀJXUDEOH 8 ʚ ʚ 4 12 -
8
4
3
1
1
1
-
-
LQFP 48 7x7
ʚ
NK-NUC1311 NLG-NUC1311
I²C
LIN
WDT
EVB
ISO-7816-3
Package Size
LPUART
Package Type
CAN
1
SPI
UART
3
WWDT
6
SRAM (KB)
8
GPIO
NUC131LC2AE Cortex-M0 50 2.5 5.5 -40 105 56 4 36 &RQÀJXUDEOH 8 ʚ ʚ 4 12 12
Core
ADC (12-bit)
PWM (16-bit)
BPWM (16-bit)
Timer (32-bit)
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
NUC130 禺
࡛ NUC131 禺
Part No.
54
QFN
5x5
33
MP Programmer
2048
EVB
ʚ
Tool
Status
Mass Production
6 3 3 3 1
Package Size
2
Package Type
Cortex72 2.5 5.5 -40 105 49 4 64 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 - 16 4
M23
SPROM(B)
Cortex72 2.5 5.5 -40 105 36 4 64 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 - 16 4
M23
USB FS Device Crystal-less
Cortex72 2.5 5.5 -40 105 36 4 64 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 - 16 4
M23
Security Package
4
USB FS Device
SPI/ I²S
I²C
UART
LLSI
I3C
Cortex72 2.5 5.5 -40 105 22 4 64 &RQÀJXUDEOH 20 10 ʚ ʚ 4 24 - 16 4
M23
DAC
ACMP
ADC (12-bit)
RTC
BPWM (16-bit)
Timer/ PWM
WWDT
WDT
PDMA (ch)
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
NUC1263SD4CE
Memory
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
NUC1263LD4CE
Operating Voltage (min) (V)
NUC1263ND4CE
Operating Voltage (max) (V)
NUC1263ZD4CE
Operating Frequency (MHz)
Part No.
Core
NuMicro®䗏 䱾 ⵖ 㐼
System
�倞
࡛ NUC230 禺
Timer
Connectivity
Analog
Package
Tool
Status
Mass Production
3 3 2 1 2 1 2
-
-
LQFP48
7x7
ʚ
NUC230LD2AE Cortex-M0 72 2.5 5.5 -40 105 35 8 64
4
8
9 ʚ ʚ 4 4 ʚ
7
1
3 3 2 1 2 1 2
-
-
LQFP48
7x7
ʚ
NUC230LE3AE Cortex-M0 72 2.5 5.5 -40 105 35 8 128 &RQÀJXUDEOH 16 9 ʚ ʚ 4 4 ʚ 7
1
3 3 2 1 2 1 2
-
-
LQFP48
7x7
ʚ
NUC230SC2AE Cortex-M0 72 2.5 5.5 -40 105 49 8 32
4
8
9 ʚ ʚ 4 6 ʚ
7
2
3 3 2 2 2 1 2
- ʚ LQFP64
7x7
ʚ
NUC230SD2AE Cortex-M0 72 2.5 5.5 -40 105 49 8 64
4
8
9 ʚ ʚ 4 6 ʚ
7
2
3 3 2 2 2 1 2
- ʚ LQFP64
7x7
ʚ
NUC230SE3AE Cortex-M0 72 2.5 5.5 -40 105 49 8 128 &RQÀJXUDEOH 16 9 ʚ ʚ 4 6 ʚ 7
2
3 3 2 2 2 1 2
- ʚ LQFP64
7x7
ʚ
NUC230VE3AE Cortex-M0 72 2.5 5.5 -40 105 83 8 128 &RQÀJXUDEOH 16 9 ʚ ʚ 4 8 ʚ 8
2
3 3 3 4 2 1 2 1 ʚ LQFP100 14x14
PDMA (ch)
NKNUC240V
NLGNUC200L
NKNUC240V
NLGNUC200L
NKNUC240V
NKNUC240V
NLGNUC200S
NKNUC240V
NLGNUC200S
NKNUC240V
NKNUC240V
ʚ
NLGNUC200L
NLGNUC200S
NLGNUC200V
࡛ NUC240 禺
System
Timer
Connectivity
Analog
Package
Status
Mass Production
2 2 1 1 2 1 2
- 1 -
LQFP48
7x7
ʚ
NUC240LD2AE Cortex-M0 72 2.5 5.5 -40 105 31 8 64
4
8
9 ʚ ʚ 4 4 ʚ
7
1
2 2 1 1 2 1 2
- 1 -
LQFP48
7x7
ʚ
NUC240LE3AE Cortex-M0 72 2.5 5.5 -40 105 31 8 128 &RQÀJXUDEOH 16 9 ʚ ʚ 4 4 ʚ 7
1
2 2 1 1 2 1 2
- 1 -
LQFP48
7x7
ʚ
NUC240SC2AE Cortex-M0 72 2.5 5.5 -40 105 45 8 32
4
8
9 ʚ ʚ 4 4 ʚ
7
2
3 3 2 2 2 1 2
- 1 ʚ LQFP64
7x7
ʚ
NUC240SD2AE Cortex-M0 72 2.5 5.5 -40 105 45 8 64
4
8
9 ʚ ʚ 4 4 ʚ
7
2
3 3 2 2 2 1 2
- 1 ʚ LQFP64
7x7
ʚ
NUC240SE3AE Cortex-M0 72 2.5 5.5 -40 105 45 8 128 &RQÀJXUDEOH 16 9 ʚ ʚ 4 4 ʚ 7
2
3 3 2 2 2 1 2
- 1 ʚ LQFP64
7x7
ʚ
NUC240VE3AE Cortex-M0 72 2.5 5.5 -40 105 79 8 128 &RQÀJXUDEOH 16 9 ʚ ʚ 4 8 ʚ 8
2
3 3 3 4 2 1 2 1 1 ʚ LQFP100 14x14
PDMA (ch)
ʚ
NKNLGNUC240V NUC200L
NKNLGNUC240V NUC200L
NKNLGNUC240V NUC200L
NUC130 禺
Package Size
1
MP Programmer
Package Type
7
䗏
䱾
ⵖ
㐼
Tool
EVB
ACMP
9 ʚ ʚ 4 4 ʚ
EBI
USB FS Device
PS/2 Device
CAN
I²S
I²C
SPI
ISO-7816-3
LIN
UART
ADC (12-bit)
8
RTC
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
SRAM (KB)
4
GPIO
NUC240LC2AE Cortex-M0 72 2.5 5.5 -40 105 31 8 32
Core
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro® Arm® Cortex®-M0
Package Size
1
MP Programmer
Package Type
7
EVB
ACMP
9 ʚ ʚ 4 4 ʚ
EBI
PS/2 Device
CAN
I²S
I²C
SPI
ISO-7816-3
LIN
UART
ADC (12-bit)
8
RTC
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
SRAM (KB)
4
GPIO
NUC230LC2AE Cortex-M0 72 2.5 5.5 -40 105 35 8 32
Core
Data Flash (KB)
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (max) (V)
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro®䗏 䱾 ⵖ 㐼
System
NKNLGNUC240V NUC200S
NKNLGNUC240V NUC200S
NKNLGNUC240V NUC200S
NKNLGNUC240V NUC200V
55
�倞
NuMicro®䗏 䱾 ⵖ 㐼
Nano100 禺
NuMicro® Nano 系列为超低功耗微控制器Ə基於 Arm® Cortex®-M0 内核Ə具 16 ~ 128 K 字节 Flash˚4 ~ 16 K 字节 SRAM˚4K 字节独立
Flash 作为在线系统编程 (In-System Programming) 用途˛
Nano 系列集成 COM / SEG LCD 驱动˚時鐘 (RTC)˚ADC˚DAC˚USB 2.0 全速设备˚ISO7816-3 智能卡接口和丰富外设Ə并支持多种接
口快速唤醒˛
Ⱒꝶ暶䚍超低功耗与快速唤醒
䎾欽곭㚖适合于使用电池供电的设备Ə诸如穿戴式装置˚物联网节点装置˚可携式医疗装置˚智能家电˚安全警报监控系统˚行动支付智能
读卡机˚GPS 数据采集器˚无线通讯模块 (Zigbee˚LoRa ...)˚电子货架标签˚无线射频识别˚智能三表 ( 热表˚水表˚燃气表 ) 等
保持 )˚3.5 µs 快速唤醒
System
Memory
Timer
Analog
Connectivity
Package
Status
ʚ
NANO100KE3BN Cortex-M0 42 1.8 3.6 -40 85 86 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 LQFP128 14X14
ʚ
NANO100LC2BN Cortex-M0 42 1.8 3.6 -40 85 38 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
LQFP48
7X7
ʚ
NANO100LD2BN Cortex-M0 42 1.8 3.6 -40 85 38 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
LQFP48
7X7
ʚ
NANO100LD3BN Cortex-M0 42 1.8 3.6 -40 85 38 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
LQFP48
7X7
ʚ
NANO100LE3BN Cortex-M0 42 1.8 3.6 -40 85 38 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
LQFP48
7X7
ʚ
NANO100NC2BN Cortex-M0 42 1.8 3.6 -40 85 38 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
QFN48
7X7
ʚ
NANO100ND2BN Cortex-M0 42 1.8 3.6 -40 85 38 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
QFN48
7X7
ʚ
NANO100ND3BN Cortex-M0 42 1.8 3.6 -40 85 38 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
QFN48
7X7
ʚ
NANO100NE3BN Cortex-M0 42 1.8 3.6 -40 85 38 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 6 ʚ
7
2 2 2 2 3 2 1
QFN48
7X7
ʚ
NANO100SC2BN Cortex-M0 42 1.8 3.6 -40 85 52 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 8 ʚ
7
2 2 2 3 3 2 1
LQFP64
7X7
ʚ
NANO100SD2BN Cortex-M0 42 1.8 3.6 -40 85 52 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 8 ʚ
7
2 2 2 3 3 2 1
LQFP64
7X7
ʚ
NANO100SD3BN Cortex-M0 42 1.8 3.6 -40 85 52 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ
7
2 2 2 3 3 2 1
LQFP64
7X7
ʚ
NANO100SE3BN Cortex-M0 42 1.8 3.6 -40 85 52 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ
7
2 2 2 3 3 2 1
LQFP64
7X7
ʚ
MP Programmer
NANO100KD3BN Cortex-M0 42 1.8 3.6 -40 85 86 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 LQFP128 14X14
Package
EVB
Mass Production
Package Size
Package Type
I²S
I²C
SPI
ISO-7816-3
LIN
UART
DAC (12-bit)
ADC (12-bit)
RTC
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
PDMA (ch)
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Part No.
Operating Frequency (MHz)
NUC130 禺
56
Ⱒꝶ暶䚍超低功耗 200 µA/MHz ( 运行模式 )˚75 µA/MHz (Idle 模式 )˚2.5 µA (RTC 模式ƏRAM 数据保持 )˚1 µA ( 待机模式ƏRAM 数据
Core
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
࡛ Nano100 禺
NT-Nano100K /
NLGNT-Nano120K /
Nano100K
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100K
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100L
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100L
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100L
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100L
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100N
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100N
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100N
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100N
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100S
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100S
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100S
NT-Nano130K
NT-Nano100K /
NLGNT-Nano120K /
Nano100S
NT-Nano130K
�倞
࡛ Nano102 禺
System
Timer
Analog
Connectivity
Package
Status
ʚ
4
4
ʚ
7
2
ʚ
2
2
2
2
LQFP48
7x7
ʚ
NANO102LC2AN Cortex-M0 32 1.8 3.6 -40 85 40
4 32
&RQÀJXUDEOH
8
4
ʚ
ʚ
4
4
ʚ
7
2
ʚ
2
2
2
2
LQFP48
7x7
ʚ
NANO102SC2AN Cortex-M0 32 1.8 3.6 -40 85 58
4 32
&RQÀJXUDEOH
8
4
ʚ
ʚ
4
4
ʚ
7
2
ʚ
2
2
2
2
LQFP64
7x7
ʚ
NANO102ZB1AN Cortex-M0 32 1.8 3.6 -40 85 27
4 16
&RQÀJXUDEOH
4
4
ʚ
ʚ
4
4
ʚ
2
2
ʚ
2
1
2
2
QFN33
5x5
ʚ
NANO102ZC2AN Cortex-M0 32 1.8 3.6 -40 85 27
4 32
&RQÀJXUDEOH
8
4
ʚ
ʚ
4
4
ʚ
2
2
ʚ
2
1
2
2
QFN33
5x5
ʚ
SPI
UART
RTC
ACMP
ADC (12-bit)
PWM (16-bit)
WWDT
WDT
NTNano102S
NLGNano112L
NTNano102S
NLGNano112S
NTNano102S
NTNano102S
NTNano102S
NLGNano112L
NLGNano102Z
NLGNano102Z
࡛ Nano103 禺
Ⱒꝶ暶䚍超低功耗技术 : 180 µA/MHz ( 运行模式 )˚75 µA/MHz (Idle 模式 )˚2 µA (RTC 模式ƏRAM 数据保持 )
System
Timer
Analog
Connectivity
Package
Status
Package Type
Package Size
Mass Production
NANO103SD3AE Cortex-M0 36 1.8 3.6 -40 105 53 4 64 &RQÀJXUDEOH 16 4 ʚ ʚ 4 6 ʚ 8 1 ʚ
2
2
4
2
LQFP64
7x7
ʚ
NANO103ZD3AE Cortex-M0 36 1.8 3.6 -40 105 26 4 64 &RQÀJXUDEOH 16 4 ʚ ʚ 4 2 ʚ 6 1 ʚ
2
2
4
2
QFN33
5x5
ʚ
ACMP
RTC
PWM (16-bit)
WDT
WWDT
PDMA (ch)
NTNano103S
NLGNano103L
NTNano103S
NTNano103S
NLGNano103S
NLGNano103Z
NuVoice™ 禺
I²C
ʚ
MP Programmer
SPI
7x7
䗏
䱾
ⵖ
㐼
Tool
EVB
UART
LQFP48
ADC (12-bit)
2
Timer (32-bit)
4
SRAM (KB)
2
Data Flash (KB)
2
GPIO
NANO103LD3AE Cortex-M0 36 1.8 3.6 -40 105 39 4 64 &RQÀJXUDEOH 16 4 ʚ ʚ 4 6 ʚ 8 1 ʚ
Core
ISO-7816-3
Internal Voltage Reference
APROM Flash (KB)
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro® Arm® Cortex®-M0
Mass Production
ʚ
MP Programmer
Package Size
4
Tool
EVB
Package Type
4
ISO-7816-3
I²C
Internal Voltage Reference
PDMA (ch)
&RQÀJXUDEOH
Timer (32-bit)
SRAM (KB)
4 16
GPIO
NANO102LB1AN Cortex-M0 32 1.8 3.6 -40 85 40
Core
Data Flash (KB)
LDROM Flash (KB)
APROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍超低功耗技术 : 150 µA/MHz ( 运行模式 )˚65 µA/MHz (Idle 模式 )˚1.5 µA (RTC 模式 , RAM 数据保持 )˚0.65 µA ( 待机模式 ,
RAM 数据保持 )˚3.5 µs 快速唤醒时间
57
�倞
RAM 数据保持 )˚1 µA ( 待机模式ƏRAM 数据保持 )˚3.5 µs 快速唤醒时间
Package
Tool
Status
ʚ
NANO110KD2BN Cortex-M0 42 1.8 3.6 -40 85 86 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
ʚ
NANO110KD3BN Cortex-M0 42 1.8 3.6 -40 85 86 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
ʚ
NANO110KE3BN Cortex-M0 42 1.8 3.6 -40 85 86 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
ʚ
NANO110RC2BN Cortex-M0 42 1.8 3.6 -40 85 51 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64 10X10
ʚ
NANO110RD2BN Cortex-M0 42 1.8 3.6 -40 85 51 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64 10X10
ʚ
NANO110RD3BN Cortex-M0 42 1.8 3.6 -40 85 51 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64 10X10
ʚ
NANO110RE3BN Cortex-M0 42 1.8 3.6 -40 85 51 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64 10X10
ʚ
NANO110SC2BN Cortex-M0 42 1.8 3.6 -40 85 51 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NANO110SD2BN Cortex-M0 42 1.8 3.6 -40 85 51 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NANO110SD3BN Cortex-M0 42 1.8 3.6 -40 85 51 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NANO110SE3BN Cortex-M0 42 1.8 3.6 -40 85 51 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 7 ʚ
7
2
2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
MP Programmer
NANO110KC2BN Cortex-M0 42 1.8 3.6 -40 85 86 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
EVB
Mass Production
Package Size
DAC (12-bit)
Package Type
Display
Analog
ADC (12-bit)
RTC
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
PDMA (ch)
Connectivity
ComSeg LCD
Timer
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
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Operating Voltage (max) (V)
Core
NuMicro® Arm® Cortex®-M0
Operating Voltage (min) (V)
Part No.
Memory
I²S
I²C
SPI
ISO-7816-3
LIN
UART
System
Operating Frequency (MHz)
NuMicro®䗏 䱾 ⵖ 㐼
䗏
䱾
ⵖ
㐼
࡛ Nano110 禺
Ⱒꝶ暶䚍集成 4x40 或 6x38 COM / SEG LCD 驱动˚超低功耗技术 : 200 µA/MHz ( 运行模式 )˚75 µA/MHz (Idle 模式 )˚ 2.5 µA (RTC 模式Ə
NTNLGNano130K Nano100K
NTNLGNano130K Nano100K
NTNLGNano130K Nano100K
NTNLGNano130K Nano100K
NTNLGNano130K Nano100R
NTNLGNano130K Nano100R
NTNLGNano130K Nano100R
NTNLGNano130K Nano100R
NTNLGNano130K Nano100S
NTNLGNano130K Nano100S
NTNLGNano130K Nano100S
NTNLGNano130K Nano100S
࡛ Nano120 禺
System
Memory
Timer
Analog Connectivity
Display
Package
ʚ
NANO112RC2AN Cortex-M0 32 1.8 3.6 -40 85 58 4 32 &RQÀJXUDEOH 8 4 ʚ ʚ 4 4 ʚ 7 2 ʚ 2 2 2 2 4x32/6x30 LQFP64
10x10
ʚ
NANO112SB1AN Cortex-M0 32 1.8 3.6 -40 85 58 4 16 &RQÀJXUDEOH 4 4 ʚ ʚ 4 4 ʚ 7 2 ʚ 2 2 2 2 4x32/6x30 LQFP64
7x7
ʚ
NANO112SC2AN Cortex-M0 32 1.8 3.6 -40 85 58 4 32 &RQÀJXUDEOH 8 4 ʚ ʚ 4 4 ʚ 7 2 ʚ 2 2 2 2 4x32/6x30 LQFP64
7x7
ʚ
PDMA (ch)
58
ʚ
MP Programmer
10x10
EVB
Mass Production
NANO112RB1AN Cortex-M0 32 1.8 3.6 -40 85 58 4 16 &RQÀJXUDEOH 4 4 ʚ ʚ 4 4 ʚ 7 2 ʚ 2 2 2 2 4x32/6x30 LQFP64
Package Type
ʚ
ComSeg LCD
7x7
SRAM (KB)
NANO112LC2AN Cortex-M0 32 1.8 3.6 -40 85 40 4 32 &RQÀJXUDEOH 8 4 ʚ ʚ 4 4 ʚ 7 2 ʚ 2 2 2 2 4x20/6x18 LQFP48
Data Flash (KB)
ʚ
GPIO
7x7
Core
NANO112LB1AN Cortex-M0 32 1.8 3.6 -40 85 40 4 16 &RQÀJXUDEOH 4 4 ʚ ʚ 4 4 ʚ 7 2 ʚ 2 2 2 2 4x20/6x18 LQFP48
NANO112VC2AN Cortex-M0 32 1.8 3.6 -40 85 80 4 32 &RQÀJXUDEOH 8 4 ʚ ʚ 4 4 ʚ 8 2 ʚ 2 2 2 2 4x36/6x34 LQFP100 14x14
Tool
Status
Package Size
I²C
SPI
ISO-7816-3
UART
Internal Voltage Reference
ACMP
ADC (12-bit)
RTC
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
APROM Flash (KB)
LDROM Flash (KB)
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Operating Voltage (min) (V)
Operating Voltage (max) (V)
Part No.
Operating Frequency (MHz)
Nano100 禺
Ⱒꝶ暶䚍集成 USB 2.0 全速设备˚超低功耗技术 : 200 µA/MHz ( 运行模式 )˚75 µA/MHz (Idle 模式 )˚2.5 µA (RTC 模式ƏRAM 数据保持 )˚
1 µA ( 待机模式ƏRAM 数据保持 )˚3.5 µs 快速唤醒时间
NTNano112V
NLGNano112L
NTNano112V
NLGNano112R
NTNano112V
NLGNano112S
NTNano112V
NTNano112V
NTNano112V
NTNano112V
NLGNano112L
NLGNano112R
NLGNano112S
NLGNano112V
�倞
࡛ Nano130 禺
低功耗技术Ɲ200 µA/MHz ( 运行模式 )˚75 µA/MHz (Idle 模式 )˚2.5 µA (RTC 模式ƏRAM 数据保持 )˚1 µA ( 待机模式ƏRAM 数据保持 )˚
3.5 µs 快速唤醒时间
System
Timer
Analog
Connectivity
Display
Package
Tool
Status
NANO130KD2BN Cortex-M0 42 1.8 3.6 -40 85 86 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
ʚ
NANO130KD3BN Cortex-M0 42 1.8 3.6 -40 85 86 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
ʚ
NANO130KE3BN Cortex-M0 42 1.8 3.6 -40 85 86 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
ʚ
NANO130SC2BN Cortex-M0 42 1.8 3.6 -40 85 47 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 7 ʚ
7
2 2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NANO130SD2BN Cortex-M0 42 1.8 3.6 -40 85 47 4 64 &RQÀJXUDEOH 8 8 ʚ ʚ 4 7 ʚ
7
2 2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NANO130SD3BN Cortex-M0 42 1.8 3.6 -40 85 47 4 64 &RQÀJXUDEOH 16 8 ʚ ʚ 4 7 ʚ
7
2 2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NANO130SE3BN Cortex-M0 42 1.8 3.6 -40 85 47 4 128 &RQÀJXUDEOH 16 8 ʚ ʚ 4 7 ʚ
7
2 2 2 3 3 2 1 4x31/6x29 LQFP64
7X7
ʚ
NTNLGNano130K Nano100K
NTNLGNano130K Nano100K
NTNLGNano130K Nano100K
NTNLGNano130K Nano100K
NTNLGNano130K Nano100S
NTNLGNano130K Nano100S
NTNLGNano130K Nano100S
NTNLGNano130K Nano100S
NuMicro® Arm® Cortex®-M0
ʚ
MP Programmer
NANO130KC2BN Cortex-M0 42 1.8 3.6 -40 85 86 4 32 &RQÀJXUDEOH 8 8 ʚ ʚ 4 8 ʚ 12 2 2 2 3 3 2 1 4x40/6x38 LQFP128 14X14
EVB
Mass Production
Package Size
Package Type
ComSeg LCD
I²S
I²C
SPI
ISO-7816-3
LIN
UART
DAC (12-bit)
ADC (12-bit)
RTC
PWM (16-bit)
Timer (32-bit)
WWDT
WDT
PDMA (ch)
SRAM (KB)
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
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2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Core
Operating Frequency (MHz)
Part No.
Memory
NuMicro®䗏 䱾 ⵖ 㐼
Ⱒꝶ暶䚍集成 4x40 或 6x38 COM / SEG LCD 驱动和 USB 2.0 全速设备˚低电压工作范围 1.8V 至 3.6V˚工作温度为 -40° C 至 85° C˚超
䗏
䱾
ⵖ
㐼
Nano100 禺
59
�倞
NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® Arm® Cortex®-M0
䗏
䱾
ⵖ
㐼
NuVoice™ 禺
NuVoice 基于嵌入式 Flash 的 32 位 Cortex M0˛ N570 和 N574 系列为 MIC˚语音变頻 和语音识别应用 , 提供高分辨率 ADC 和灵活的算法˛
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Audio
ADC
Touch
Wakeup
Voice
Recognition
DPWM
10-bit
5-ch
ʚ
-
DPWM
10-bit
5-ch
ʚ
ʚ
Part No.
CPU
APROM
Flash
VDD(V)
SRAM
GPIO
I/O Interface
PWM
Output
Mic.
Speaker
N570H064
Cortex®-M0
49 MHz
64 KB
1.8~5.5
6 KB
28
SPI x 2, UART
8
ʚ
N570HC64
Cortex®-M0
49 MHz
64 KB
1.8~5.5
6 KB
28
SPI x 2, UART
8
ʚ
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Duration(Sec)
Touch
Wakeup
Package
DPWM
10-bit
5-ch
ʚ
LQFP48
ʚ
DPWM
10-bit
5-ch
ʚ
LQFP48
8
ʚ
DPWM
10-bit
5-ch
ʚ
LQFP48
SPI,
UART
8
ʚ
DPWM
10-bit
5-ch
ʚ
LQFP48
SPI,
UART
8
ʚ
DPWM
10-bit
5-ch
ʚ
LQFP64
CPU
APROM
Flash
Flash
Memory
VDD (V)
N570J08AL
Cortex®-M0
49 MHz
64 KB
8Mbit
2.4~5.5
1,000
6 KB
24
SPI,
UART
N570J16AL
Cortex®-M0
49 MHz
64 KB
16Mbit
2.4~5.5
2,000
6 KB
24
N570J32AL
Cortex®-M0
49 MHz
64 KB
32Mbit
2.4~5.5
4,000
6 KB
N570J64L
Cortex®-M0
49 MHz
64 KB
64Mbit
2.4~5.5
8,000
N570J01GR
Cortex®-M0
49 MHz
64 KB
1Gbit
2.4~5.5
128,000
8KHz
SRAM GPIO
Audio
ADC
Part No.
I/O
PWM
Interface Output
Mic.
Speaker
8
ʚ
SPI,
UART
8
24
SPI,
UART
6 KB
24
6 KB
24
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Duration(Sec)
APROM Flash
VDD (V)
SRAM
Flash Memory
8KHz
I/O
PWM
Interface Output
NuVoice™ 禺
Part No.
CPU
N572F072
Cortex®-M0
48 MHz
72 KB
-
2.4~5.5
-
8 KB
32
SPI x 2
N572C072
Cortex®-M0
48 MHz
72 KB
-
2.4~5.5
-
8 KB
32
N572S16A
Cortex®-M0
48 MHz
64 KB
16Mbit
2.4~5.5
2,000
8 KB
N572S32A
Cortex®-M0
48 MHz
64 KB
32Mbit
2.4~5.5
4,000
N572S64A
Cortex®-M0
48 MHz
64 KB
64Mbit
2.4~5.5
8,000
I/O
Audio
LDO
ADC
Other
Package
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
LQFP64
ʚ
Class-AB
(400mW)
ʚ
12-bit
Voice
LQFP64
8-ch Recognition
4
ʚ
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
LQFP64
SPI
4
ʚ
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
LQFP64
SPI
4
ʚ
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
LQFP64
LDO
ADC
Other
Package
Mic.
Speaker
4
ʚ
SPI x 2
4
26
SPI
8 KB
26
8 KB
26
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60
Duration(Sec)
APROM Flash
SRAM
VDD (V)
Flash Memory
8KHz
I/O
PWM
Interface Output
Part No.
CPU
N572H064
Cortex®-M0
48 MHz
64 KB
-
2.0~5.5
-
6 KB
32
SPI x 2
N572H064S
Cortex®-M0
48 MHz
64 KB
-
2.0~5.5
-
6 KB
32
N572H16A
Cortex®-M0
48 MHz
64 KB
16Mbit
2.0~5.5
2,000
6 KB
26
I/O
Audio
Mic.
Speaker
4
ʚ
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
SPI x 2
4
ʚ
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
LQFP64
SPI
4
ʚ
Class-AB
(400mW)
ʚ
12-bit
8-ch
-
LQFP64
�倞
CPU
Cortex®N574F128
M0
Cortex®N574C128
M0
Duration (Sec.)
APROM
Flash
VDD
(V)
12KHz
16KHz
128 KB
1.8~5.5
63
47
128 KB
1.8~5.5
63
47
Audio
ADC
Cap
Touch
DPWM
10-bit
5-ch
16
-
ʚ
ʚ
DPWM
10-bit
5-ch
16
ʚ
ʚ
12
ʚ
DPWM
10-bit
5-ch
16
-
-
SRAM
GPIO
I/O
Interface
PWM
Output
Mic.
Speaker
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
40
SPI,
UART,
I2C, Addr.
LED
12
12 KB
Voice
LDO33 for
Recognition SPI Flash
256 KB
1.8~5.5
142
106
12 KB
40
SPI,
UART,
I2C, Addr.
LED
N574C256
Cortex®M0
256 KB
1.8~5.5
142
106
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
ʚ
-
N574F512
Cortex®M0
512 KB
1.8~5.5
303
228
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
-
-
N574C512
Cortex®M0
512 KB
1.8~5.5
303
228
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
ʚ
-
N574F1K0
Cortex®1024 KB
M0
1.8~5.5
627
470
12 KB
40
SPI,
UART,
2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
-
-
N574C1K0
Cortex®1024 KB
M0
1.8~5.5
627
470
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
ʚ
-
N574F1K5
Cortex®1536 KB
M0
1.8~5.5
951
713
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
-
-
N574C1K5
Cortex®1536 KB
M0
1.8~5.5
951
713
12 KB
40
SPI,
UART,
I2C, Addr.
LED
12
ʚ
DPWM
10-bit
5-ch
16
ʚ
-
Audio
Duration(Sec)
APROM Flash
I/O
PWM
VDD (V)
LDO
SRAM I/O
Flash Memory
Interface
Output
8KHz
Mic. Speaker
Part No.
CPU
N575F145
Cortex®-M0
48 MHz
145 KB
-
2.4~5.5
-
12 KB
24
UART,
I²C, I²S,
SPI
2
ʚ
DPWM
(1W)
N575C145
Cortex®-M0
48 MHz
145 KB
-
2.4~5.5
-
12 KB
24
UART,
I²C, I²S,
SPI
2
ʚ
N575S64A
Cortex®-M0
48 MHz
145 KB
64 Mbit
2.4~5.5
8,000
12 KB
20
UART,
I²C, I²S,
SPI
2
ʚ
ADC
Other
Package
ʚ
16-bit,
sigma
delta
8-ch Touch Key,
Temperature Alarm,
PDMA, CRC
LQFP48
DPWM
(1W)
ʚ
16-bit,
sigma
delta
8-ch Touch Key,
Temperature Alarm,
PDMA, CRC, Voice
Recognition
LQFP48
DPWM
(1W)
ʚ
16-bit,
sigma
delta
8-ch Touch Key,
Temperature Alarm,
PDMA, CRC
LQFP64
䗏
䱾
ⵖ
㐼
NuVoice™ 禺
�5��������IP[�*VY[L_�4��^P[O�,TILKKLK�-SHZO�HUK����IP[�(+*�:VS\[PVU
NuMicro® Arm® Cortex®-M0
N574F256
Cortex®M0
NuMicro®䗏 䱾 ⵖ 㐼
Part No.
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61
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NuMicro®䗏 䱾 ⵖ 㐼
NuMicro® Arm® Cortex®-M0
䗏
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ⵖ
㐼
NuVoice 禺䒓〄䊨Ⱘ
Ordering No.
Board Name
Content
Description
Picture
NuVoice® Family
NuVoice Demo Board, Evaluation Board
• N570F/C064 EVB
• N570F/C064 Evaluation Board (EVB) with I/O Interface &
Microphone for Voice Recognition Application
Support: N570F064, N570C064
NHS-N569S8K0
• N569S8K0 (MCP) EVB
• N569S (w/ 64Mbit Flash) Evaluation Board (EVB) with I/O Interface
Support: N569S502/1K0/2K0/4K0/8K0
NV-N570SC64
NHS-570SC64
• N570SC64 (MCP) EVB
• N570SC64 (w/ 64Mbit Flash) Evaluation Board with I/O Interface &
Microphone for Voice Recognition Application
Support: N570S08A/16A/32A/64A, N570SC08/16/32/64
N570HC64-EVB
NHS-570H064-EVB
• N570H064 EVB
• N570H064 and N570HC64 Evaluation Board (EVB)
with Push Button for Demo
N570J32A-EVB
NHS-N570J32A
• N570J32A (MCP) EVB
VDD: 2.4~5.5V
• N570J32AL (w/ 32Mbit Spi-Flash) Evaluation Board
Support: N570J08AL, N570J16AL and N570J32AL
NV-N572F065
NHS-572F065-EVB
• N572F065 EVB
• N572F065 Evaluation Board (EVB) with I/O Interface
NV-N572C072
NHS-572C072-EVB
• N572F/C072 EVB
• N572F/C072 Evaluation Board (EVB) with I/O Interface &
Microphone for Voice Recognition Application
Support: N572F072, N572C072
NV-N575C145
NHS-575C145
• N575F/C145 EVB
• N575F/C145 Evaluation Board (EVB) with I/O Interface &
Microphone for Voice Recognition Application
Support: N575F145, N575C145
NT-N575C145
NHS-575C145
• N575C145-EVB + Daughter
Board
• N575F/C145 Evaluation Board (EVB) with I/O Interface &
Microphone for Voice Recognition Application with Daughter Board
NV-N570C064
NHS-570C064-EVB
NV-N569S8K0
Ordering No.
Board name
Content
Description
Picture
NuVoice Dongle, Writer
ISD®9100 禺
62
NW-NULINK2
Nu-Link2
• Nu-Link2 Dongle
• Nu-Link2 Dongle as NuVoice 1 to 1 Writer. Support to:N570F/C064,
N570H064, N570HC64, N572F/C072, N572F065,
N574F/C-256/512/1K0/1K5
MCP Series: N569S, N570S, N570J
NU-NUVOICE
NU-LINK
• Nu-Link Debug Adapter
• 1X9RLFH�6HULHV���WR���:ULWHU��'RQJOH��ZLWK�2QOLQH�2IÁLQH�,Q�&LUFXLW�
Program (ICP), Develop, and Debug.
Support: N569, N570, N572, N573, N574, N575
NW-570F064-F
NW-570F064-F
• NW-570F064-F 1-8 Gang Writer
w/ LQFP48 Adaptor and Socket
• N570F064 LQFP48 1-8 Gang Writer. Support: N570F064L, N570FW64L
NW-570H574-F
Flash Gang Writer
(Full Set)
• The 2 to 8 Gang Writer Full
Set Includes NW-N570H574-M
(Mother Board), 8 x LQFP48
Socket with Adaptor Board
• This 2 to 8 Gang Writer Full Set is for N570H064L (LQFP48)
NW-570H574-M
Flash Gang Writer
(Main Board)
• 2 to 8 Gang Writer Main Board
(N570H/N574F)
• 2 to 8 Gang Writer Main Board for N570H064, N570J, N569J, N574F
NW-N570J32-F
NW-N570J32-F
• NW-N570J32-M x 1 (2 to 8 Gang
Writer Main Board)
N570J32 adaptor board x 8 and
LQFP48 Socket x 8
• N570J32AL/DL 2 to 8 Gang Writer Full Set. It supports
570J08AL/16AL/32AL, N570J08DL/16DL/32DL, and N569J1K0/2K0
NW-N570J32-M
NW-N570J32-M
• NW-N570J32-M (2 to 8 Gang
Writer Main Board)
• N570J32AL/DL 2 to 8 Gang Writer Main Board. It supports
N570J08AL/16AL/32AL, N570J08DL/16DL/32DL, and N569J1K0/2K0/4K0
NW-570S64A-F
Flash Gang Writer
• N569S/N570S 1-8 Gang Writer
• N569S/N570S (MCP) 1 to 8 Gang Writer
Support: N569S502/1K0/2K0/4K0/8K0, and N570S08A/16A/32A/64A
NW-569SAK2-F
NW-569SAK2-F
• N569SAK2/N570S130
1-8 Gang Writer
• N569SAK2/N570S130 (MCP) 1 to 8 Gang Writer
• Support: N569SAK2 and N570S130 (w/ 128Mbit Spi-Flash)
NW-572H16A-F
NW-572H16A-F
• N572H16A Gang Writer Main
Board, Adaptor Board and
LQFP64 Socket
• N572H16A 1 to 8 Gang Writer Full Set to Program N572H16A MCP
(LQFP64, 7x7mm^2) Chip
NW-572H064-F
NW-572H064-F
• N572H064S Gang Writer
Main Board, Adaptor Board and
LQFP64 Socket
• N572H064S 1 to 8 Gang Writer Full Set to Program N572H064S (LQFP64,
7x7mm^2) Chip
�倞
ISD®9100 禺
前内建优质的降噪及回声消除演算法Ə或高阶语音辨识Ə用以处理通话或语音辨识解决方案˛
Part No.
CPU
ISD9130
Cortex®-M0
49 MHz
68 KB
ISD9160
Cortex®-M0
49 MHz
ISD9160C
APROM SRAM
Audio
Timer
ADC
RTC
12 KB
24
2
16-bit Sigma-Delta
ʚ
1
Class-D
(1W)
ISD-DMK_9160
UART, I²C, I²S, PDMA, CRC
LQFP48
QFN33
145 KB
12 KB
24
2
16-bit Sigma-Delta
ʚ
1
Class-D
(1W)
ISD-DMK_9160
UART, I²C, I²S, PDMA, CRC
LQFP48
QFN33
Cortex®-M0
49 MHz
145 KB
12 KB
24
2
16-bit Sigma-Delta
ʚ
1
Class-D
(1W)
ISD-DMK_9160
UART, I²C, I²S, PDMA, CRC, VR
LQFP48
QFN33
ISD91230
Cortex®-M0
49 MHz
64 KB
12 KB
32
2
12-bit SAR
ʚ
1
Class-D
(0.45W)
ISD-DMK_91260
UART, I²C, I²S, PDMA, CRC
LQFP64
QFN33
ISD91230B
Cortex®-M0
49 MHz
64 KB
12 KB
32
2
12-bit SAR
24-bitBridgeSense
ʚ
-
Class-D
(0.45W)
ISD-DMK_91260B
UART, I²C, I²S, PDMA, CRC
LQFP64
ISD91260
Cortex®-M0
49 MHz
128 KB
12 KB
32
2
12-bit SAR
ʚ
1
Class-D
(0.45W)
ISD-DMK_91260
UART, I²C, I²S, PDMA, CRC
LQFP64
QFN33
ISD91260B
Cortex®-M0
49 MHz
128 KB
12 KB
32
2
12-bit SAR
24-bit BridgeSense
ʚ
-
Class-D
(0.45W)
ISD-DMK_91260B
UART, I²C, I²S, PDMA, CRC
LQFP64
ISD91260C
Cortex®-M0
49 MHz
128 KB
12 KB
32
2
12-bit SAR
ʚ
1
Class-D
(0.45W)
ISD-DMK_91260
UART, I²C, I²S, PDMA, CRC, VR
LQFP64
QFN33
ISD91530
Cortex®-M0
49 MHz
64 KB
Flash
12KB
50
3
12-bit SAR
16-bit Sigma-Delta
-
1
Class-AB
(0.02W)
ISD-DMK_91500
USB 2.0 FS
LQFP64
QFN48
ISD91535
Cortex®-M0
49 MHz
64 KB
Flash
20KB
50
3
12-bit SAR
16-bit Sigma-Delta
-
1
Class-AB
(0.02W)
ISD-DMK_91500
USB 2.0 FS
LQFP64
QFN48
ISD®9100 禺䒓〄䊨Ⱘ
MIC. Speaker
Developemnt Tools
Other
Ordering No.
Part No.
Board Name
Supported
Devices
NU-NULINKISD
NU-NULINKISD
ISD-NU-LINK
ISD9100 Series
ISD91200 Series
ISD91500 Series
ISD94100 Series
• ISD-NU-LINK
• USB Dongle
• Support ICP (In-Circuit Programming)
• Evaluation and Demo Kit for ISD9100 Series
Content
Description
NM-ISD9160
ISD-DMK_9160
ISD9100 Series
NT-ISD9160
NT-ISD9160
ISD-DEMO9160
ISD9100 Series
• ISD-DEMO9160
• Demo Board for ISD9100 Series
• Connect to PC via ISD NU-LINK for
programming and evaluation
NP-ISD9160-T
NP-ISD9160-T
ISD-9160-TOUCH
ISD9100 Series
• ISD-9160-TOUCH
• 8-input Touch Pad for NT-ISD9160
NP-ISD9160-K
NP-ISD9160-K
ISD-9160-KB
ISD9100 Series
• ISD-9160-KB
• 8-input Key Pad for NT-ISD9160
NM-ISD91260
NM-ISD91260
ISD-DMK_91260
ISD91200C Series
• ISD-DEMO91260
• ISD-NU-LINK
• Speaker
• Evaluation and Demo Kit for ISD91200C
Series
NM-ISD91260B
NM-ISD91260B
ISD-DMK_91260B
ISD91200B Series
• ISD-DEMO91260B
• ISD-NU-LINK
• Speaker
• Evaluation and Demo Kit for ISD91200B
Series
NT-ISD91260
NT-ISD91260
ISD-DEMO91260
ISD91200C Series
• ISD-DEMO91260
• Demo Board for ISD91200C Series
• Connect to PC via ISD NU-LINK for
programming and evaluation
NT-ISD91260B
NT-ISD91260B
ISD-DEMO91260B
ISD91200B
Series
• ISD-DEMO91260B
• Demo Board for ISD91200B Series
• Connect to PC via ISD NU-LINK for
programming and evaluation
NT-I91500UC
ISD91500_UC_
HEADSET
ISD91500_UC_
HEADSET
ISD91500 Series
• ISD91500_UC_
HEADSET
• UC_HEADSET Demo Board for ISD91500 Series
• Connect to PC via ISD NU-LINK for
Programming and Evaluation
NM-ISD91500
NM-ISD91500
ISD-DMK_91500
ISD91500 Series
• NT-ISD91500
• ISD-NU-LINK
• Speaker
• Evaluation and Demo Kit for ISD91500 Series
NW-ISD9160
NW-ISD9160
ISD-ES9160__
Prog_F
ISD9160 LQFP
• ISD-ES9160__
Prog_F
• ISD9160 LQFP Single Socket Programmer
• Connect to PC via ISD NU-LINK for
programming and evaluation
NG-ISD9160
NG-ISD9160
ISD-9160_GANG_
Prog_F
ISD9160 LQFP
• ISD-9160_GANG_
Prog_F
• ISD9160 LQFP Standalone Gang
Programmer
䗏
䱾
ⵖ
㐼
Picture
NuVoice™ 禺
NM-ISD9160
• ISD-DEMO9160
• ISD-NU-LINK
• ISD-9160-Touch
• ISD-9160-KB
• Speaker
Package
NuMicro® Arm® Cortex®-M0
I/O
NuMicro®䗏 䱾 ⵖ 㐼
RTC, PDMA, UART, SPI, I2C, PWM, GPIO, SAR ADC, USB, ARM Cortex-M0 内建小瓦数功放Ə主频可跑到 49 MHz 足以搭载小型的语音辨
识引擎作为声控应用 , 适合高度集成的周边装置˛并支援多元的周边介面如 UART, SPI, I2C, I2S, USB 支持 Full Speed 1.1 并相容于 2.0˛目
新唐特别针对音频应用开发 32-bit 的 ARM Cortex-M0 整合型 MCUƏ除了有内建 Flash 及 SRAM 记忆体Ə并富涵多元的 Audio 及控制介面
63
�Microcontrollers
倞 NuMicro ® 8051 䗏䱾ⵖ㐼㹻停
新唐科技为 8051 单片机之领先供应商Ə对消费性与工业应用提供各种具高性价比的产品˛ 8 位单片机具备丰富周边来满足各种系统需求Ə并
且得到世界领先工具制造商的工具链支持Ə可实现快速产品开发˛
MUG51 系列为内建 Flash 的 1T 8051 内核低功耗微控制器Ə适合用于从线圈磁场获得电源的无电池设备Ə例如透过电磁感应取得电源的触控
笔或是 RFID 卡˛
MG51 系列为内建 Flash 的 1T 8051 微控制器Ə适合于注重成本的应用˛它支持 16/24 MHz 的 CPU 速度Ə具有最多 32 KB 的 Flash
memoryƏ1KB SRAMƏ2.4V 至 5.5V 的工作电压Ə和 -40° C 至 105° C 的工作温度˛
MS51 系列为 1T 8051 内核且具有丰富周边与各种包装˛ GPIO 具有 20 mA 高电流驱动能力Ə更有 8 kV ESD 高抗干扰能力˛
ML51/ML54/ML56 低功耗系列提供最大到 64 KB Flash 闪存与 4 KB SRAMƏ正常运行模式典型功耗可达����ѥ$�0+]�以及休眠模式下功耗可
低于�����ѥ$˛
NuMicro® Family 8051 MCUs
ML51 - 低功耗系列
ML54 - 低功耗 LCD 系列
ML56 - 低功耗 LCD+ 触摸按鍵系列
MUG51 ⡜⸆罳禺
低功耗 MUG51 系列为内建 Flash 的 1T 8051 内核低功耗微控制器Ə操作频率为 7.3728 MHzƏ内建 16 KB Flash 内存以及 1 KB SRAM 与 4
KB LDROMƏ工作电压范围 1.8V 至 5.5VƏ工作温度范围 - 40° C ~ 105° CƏ低功耗 MUG51 系列支持在上电后到 Flash 内存初始化完成前功
耗约为�����ѥ$Ə其低功耗特性使其很适合用于从线圈磁场获得电源的无电池设备Ə例如透过电磁感应取得电源的触控笔或是 RFID 卡˛
低功耗 MUG51 系列特色为上电后到 Flash 内存初始化完成前功耗约为�����ѥ$Ə很适合用在透过电磁感应取得电源的触控笔或是 RFID 卡等
应用Ə正常运行模式于 7.3728 MHz 时功耗小于 1.3 mAƏ掉电模式小于���ѥ$˛
低功耗 MUG51 系列提供丰富的周边接口Ə如 I/O 内建反向器˚四组 16-bit 定时器˚两组 UART˚一组 ISO-7816 界面˚一组 SPI˚两组
I²C˚6 路 PWM˚两组模拟比较器˚8 通道 I/O 中断˚低电压复位˚欠压检测等来增加产品性能以及减少外围组件与尺寸˛
Ⱒꝶ暶䚍 : 低功耗 MUG51 系列特色为上电后到 Flash 内存初始化完成前功耗约为�����ѥ$Ə正常运行模式于 7.3728 MHz 时功耗小于 1.3
mAƏ掉电模式小于���ѥ$
࡛ MUG51 禺
System
Memory
NKMUG51TB
MP Programmer
v
Tool
EVB
QFN33 4x4
Status
Mass Production
-
Package Size
-
Package
Package Type
2 128 -
ComSeg LCD
UID
1
Display
UCID
1
I²C
2
Security
SPROM(B)
-
SPI
-
UART
2
ISO-7816-3
-
Internal Voltage Reference
-
ACMP
6
Connectivity
Touch Key
4
RTC
PWM (10-bit)
v
Analog
ADC (12-bit)
WDT
Shared
with
1 + 256(B) 2
APROM
Timer (16-bit)
PDMA(ch)
64
Timer
SRAM (KB)
MUG51TB9AE 8051 7.3728 1.8 5.5 -40 105 24 4 16
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Core
Operating Voltage (max) (V)
Part No.
Operating Frequency (MHz)
MUG51 ⡜⸆罳禺
湡垦䥰欽 : 触控笔与 RFID 卡
-
�新唐 MG51 系列以 1T 8051 处理器为内核,指令集兼容于标准 80C51 并且性能提升,系统频率达 24 MHz,内建 16 ~ 32 Kbytes Flash
Memory,1 Kbytes SRAM,可配置的 1 ~ 4 Kbytes LDROM 供在系统编程使用,以丰富周边为其特色,高达 8 路 12 位 ADC、2 组 UART、
6 路 16 位 PWM,高抗干扰能力。
关键特性:可配置的数据存储区。具备高抗干扰能力 (7 kV ESD 与 4.4 kV EFT) 与强灌电流能力 (20 mA)
Microcontrollers
MG51 工业�制��
应用领域:智慧建筑、智慧家庭、家电、工业控制、电池管理系统等
● MG51 ��
Timer
Analog Connectivity
Security
Package
Status
Tool
SPI
I²C
SPROM(B)
Mass Production
EVB
-
1
1
128
TSSOP20 4.4x6.5
v
NT-MG51FC
NLGMS51F
MG51FC9AE
8051 16/24 2.4 5.5 -40 105 18 4 32
Shared with
2K + 256(B) v
APROM
4
6
8
2
-
1
1
128
TSSOP20 4.4x6.5
v
NT-MG51FC
NLGMS51F
MG51XB9AE
8051 16/24 2.4 5.5 -40 105 18 4 16
Shared with
1K + 256(B) v
APROM
4
6
8
2
-
1
1
128
QFN20
3x3
v
NT-MG51FC
-
MG51XC9AE
8051 16/24 2.4 5.5 -40 105 18 4 16
Shared with
1K + 256(B) v
APROM
4
6
8
2
-
1
1
128
QFN20
3x3
v
NT-MG51FC
-
MP Programmer
UART
ISO-7816-3
2
Package Size
ADC (12-bit)
8
Package Type
PWM (10-bit)
6
WDT
4
SRAM (KB)
Shared with
1K + 256(B) v
APROM
Data Flash (KB)
8051 16/24 2.4 5.5 -40 105 18 4 16
GPIO
MG51FB9AE
Core
Timer (16-bit)
APROM Flash (KB)
LDROM Flash (KB)
Operating Temperature (max) (℃)
Operating Temperature (min) (℃)
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Part No.
Memory
NuMicro® Family 8051 MCUs
System
MG51 工业�制��
65
�Microcontrollers
MS51 䊨⚌䱾ⵖ禺
新唐 MS51 系列以 1T 8051 处理器为内核Ə指令集兼容于标准 80C51 并且性能提升Ə系统频率达 24 MHzƏ内建 8 ~ 32 Kbytes Flash
MemoryƏ1 ~ 2 Kbytes SRAMƏ可配置的 1 ~ 4 Kbytes LDROM 供在系统编程使用Ə以丰富周边为其特色Ə高达 15 路 12 位 ADC˚5 组
UART˚12 路 16 位 PWMƏ高抗干扰能力˛
Ⱒꝶ暶䚍可配置的数据存储区˛具备高抗干扰能力 (8kV ESD 与 4kV EFT) 与强灌电流能力 (20 mA)
䎾欽곭㚖智慧建筑˚智慧家庭˚家电˚工业控制˚电池管理系统等
System
-
1
1
128
MSOP10
3x3
ʚ
2
-
1
1
128
TSSOP14
4.4x5
ʚ
15
2
3
1
1
128
TSSOP28
4.4x9.7
ʚ
4 12
15
2
3
1
1
128
TSSOP28
4.4x9.7
ʚ
ʚ
4
6
8
2
-
1
1
128
TSSOP20
4.4x6.5
ʚ
ʚ
4 11
15
2
3
1
1
128
TSSOP20
4.4x6.5
ʚ
ʚ
4 12
15
2
3
1
1
128
LQFP32
7x7
ʚ
ʚ
ʚ
4 12
4
6
15
8
2
2
3
-
1
1
1
1
128
128
QFN33
QFN20
4x4
3x3
ʚ
ʚ
ʚ
4
6
8
2
-
1
1
128
QFN20
3x3
ʚ
ʚ
4 12
15
2
3
1
1
128
QFN20
3x3
ʚ
MP Programmer
Mass Production
2
EVB
Package Size
Shared with
2K + 256(B)
APROM
Package Type
MS51XC0BE 8051 16/24 2.4 5.5 -40 105 18 4 32
SPROM (Byte)
ML51 / ML54 / ML56
Shared with
1K + 256(B)
8051 16/24 2.4 5.5 -40 105 18 4 16
APROM
I²C
Shared with
1K + 256(B)
8051 16/24 2.4 5.5 -40 105 18 4 16
APROM
8
Tool
Status
SPI
Shared with
2K + 256(B)
8051 16/24 2.4 5.5 -40 105 31 4 32
APROM
5
Package
UART
Shared with
2K + 256(B)
APROM
5
Security
ISO-7816-3
MS51PC0AE 8051 16/24 2.4 5.5 -40 105 31 4 32
Shared with
2K + 256(B)
APROM
5
Connectivity
4 12
Shared with
2K + 256 (B) ʚ
APROM
Shared with
1K + 256(B)
APROM
4
ADC (12-bit)
MS51FC0AE 8051 16/24 2.4 5.5 -40 105 18 4 32
MS51XB9BE
ʚ
4
PWM (16-bit)
MS51FB9AE 8051 16/24 2.4 5.5 -40 105 18 4 16
MS51XB9AE
ʚ
Shared with
2K + 256 (B) ʚ
8051 16/24 2.4 5.5 -40 105 26 4 16
APROM
MS51EC0AE 8051 16/24 2.4 5.5 -40 105 26 4 32
MS51TC0AE
Shared with
1K + 256(B)
APROM
WDT
MS51EB0AE
Shared with
1K + 256(B)
APROM
Analog
Timer (16-bit)
MS51DA9AE 8051 16/24 2.4 5.5 -40 105 12 4 8
Timer
SRAM (KB)
MS51BA9AE 8051 16/24 2.4 5.5 -40 105 8 4 8
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Operating Frequency (MHz)
Core
NuMicro® Family 8051 MCUs
Part No.
Memory
NTMS51DA
-
NKMS51PC
NLGMS51E
NTMS51FB
NLGMS51F
NTMS51DA
NKMS51PC
NKMS51PC
NKMS51PC
-
NLGMS51E
NLGMS51F
-
NKMS51PC
-
NTMS51FB
NLG20XB
NTMS51FB
NKMS51PC
-
-
ML51 / ML54 / ML56 ⡜⸆罳禺
新唐 ML51/ML54/ML56 系列是低功耗微控制器平台并以 1T 8051 处理器为内核Ə指令集兼容于标准 80C51 并且性能提升Ə系统频率达 24
MHzƏ内建 16 ~ 64 Kbytes Flash MemoryƏ1 ~ 4 Kbytes SRAMƏ可配置的 1 ~ 4 Kbytes LDROM 供在系统编程使用Ə特色为内建 COM/
SEG LCD 驱动器与电容式触控按键Ə非常适合用于小家电人机接口Ə1.8V 到 5.5V 宽工作电压 (ML51 32/16 KB)Ə5V 容忍 I/OƏ���ʝ�a�
���ʝ�工作温度˛
Ⱒꝶ暶䚍正常运行功耗为����ѥ$�0+]Ə低功耗运行模式功耗为����ѥ$Ə低功耗闲置模式功耗为����ѥ$Ə休眠模式在 3.3V 时功耗为�����ѥ$˚
在����ѥ6�内的快速唤醒时间˚并具备高抗干扰能力 (8kV ESDƏ4kV EFT) 与强灌电流能力 (20 mA)˛
䎾欽곭㚖手持仪器˚温控器˚健康照护产品˚人机介面˚智慧家庭˚家电˚工业控制˚工业自动化˚温度 / 湿度纪录器
66
�System
-
-
TSSOP28 4.4x9.7
ʚ
NTNLGML51EB 28E
2 128 96 128
-
TSSOP28 4.4x9.7
ʚ
NKNLGML51PC 28E
1
2 128 96 128
-
TSSOP20 4.4x6.5
ʚ
NTNLGML51EB 20F
2
2
2 128 96 128
-
LQFP48
7x7
ʚ
NKNLGML51SD 48L
2
1
1
2 128 96 128
-
SOP20
7.6x13
ʚ
NTML51EB
-
2
- ʚ 2
1
1
2 128 96 128
-
LQFP32
7x7
ʚ
NKML51PC
-
2
- ʚ 2
1
2
2 128 96 128
-
LQFP32
7x7
ʚ
NKML51PC
-
ʚ
14 2
- ʚ 2
2
2
2 128 96 128
-
LQFP64
7x7
ʚ
NKNLGML51SD 64S
6
-
8
2
- ʚ 2
1
1
2 128 96 128
-
QFN33
4x4
ʚ
NKNLGML51PC 32T
6
-
8
2
- ʚ 2
1
2
2 128 96 128
-
QFN33
4x4
ʚ
NKNLGML51PC 32T
Shared
4+
4 ʚ 4 12
with
256(B)
APROM
ʚ
9
2
- ʚ 2
2
2
2 128 96 128
-
QFN33
4x4
ʚ
NKNLGML51SD 32T
6
-
8
-
- ʚ 2
1
1
2 128 96 128
-
SOP28
7.6x18
ʚ
NTML51EB
-
6
-
8
2
- ʚ 2
1
2
2 128 96 128
-
SOP28
7.6x18
ʚ
NKML51PC
-
6
-
6
-
-
1
1
2 128 96 128
-
QFN20
3x3
ʚ
NTML51EB
-
1 128 96 128
-
MSOP10
4
-
3
-
-
-
2
1
1
2 128 96 128
-
6
-
8
-
-
-
2
1
1
2 128 96 128
6
-
8
2
- ʚ 2
1
2
6
-
6
-
-
2
1
Shared
4+
4 ʚ 4 12
with
256(B)
APROM
ʚ
10 2
- ʚ 2
6
-
6
-
-
6
-
8
6
-
8
Shared
4+
4 ʚ 4 12
with
256(B)
APROM
Shared
1+
2 ʚ 4
with
256(B)
APROM
Shared
1+
2 ʚ 4
with
256(B)
APROM
Shared
2+
2 ʚ 4
with
256(B)
APROM
Shared
1+
2 ʚ 4
with
256(B)
APROM
Shared
1+
2 ʚ 4
with
256(B)
APROM
Shared
2+
2 ʚ 4
with
256(B)
APROM
Shared
2+
2 ʚ 4
with
256(B)
APROM
Shared
2+
2 ʚ 4
with
256(B)
APROM
Shared
2+
2 ʚ 4
with
256(B)
APROM
Shared
2+
2 ʚ 4
with
256(B)
APROM
Shared
1+
2 ʚ 4
with
256(B)
APROM
-
-
2
ML51 / ML54 / ML56
Shared
2+
2 ʚ 4
with
256(B)
APROM
-
NuMicro® Family 8051 MCUs
-
MP Programmer
NTML51EB
-
EVB
ML51XB9AE 8051 24 1.8 5.5 -40 105 17 4 16
Mass Production
ML51UC0AE 8051 24 1.8 5.5 -40 105 24 4 32
Package Size
ML51UB9AE 8051 24 1.8 5.5 -40 105 24 4 16
ʚ
Package Type
ML51TD1AE 8051 24 1.8 3.6 -40 105 28 4 64
TSSOP14 4.4x5.0
ComSeg LCD
ML51TC0AE 8051 24 1.8 5.5 -40 105 28 4 32
-
2
UID
ML51TB9AE 8051 24 1.8 5.5 -40 105 28 4 16
NTML51EB
-
UCID
ML51SD1AE 8051 24 1.8 3.6 -40 105 56 4 64
ʚ
-
I²C
ML51PC0AE 8051 24 1.8 5.5 -40 105 28 4 32
Tool
Status
3x3
-
SPROM (Byte)
ML51PB9AE 8051 24 1.8 5.5 -40 105 28 4 16
Package
SPI
ML51OB9AE 8051 24 1.8 5.5 -40 105 16 4 16
Display
ISO-7816-3
ML51LD1AE 8051 24 1.8 3.6 -40 105 43 4 64
Security
2
Shared
1+
2 ʚ 4
with
256(B)
APROM
RTC
ML51FB9AE 8051 24 1.8 5.5 -40 105 16 4 16
UART
Internal Voltage Reference
Touch Key
ACMP
ADC (12-bit)
ML51EC0AE 8051 24 1.8 5.5 -40 105 24 4 32
Connectivity
-
PWM (16-bit)
Timer (16-bit)
WDT
ML51EB9AE 8051 24 1.8 5.5 -40 105 24 4 16
Analog
4
PDMA (ch)
ML51DB9AE 8051 24 1.8 5.5 -40 105 11 4 16
Timer
SRAM (KB)
ML51BB9AE 8051 24 1.8 5.5 -40 105 7 4 16
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Core
Operating Frequency (MHz)
Part No.
Memory
Microcontrollers
࡛ ML51 ⡜⸆罳禺
67
�System
Memory
Analog
Display
Package
Tool
Status
ʚ
NKNLGML54SD 64S
I²C
ʚ
2
2
2
2 128 96 128 4x22/6x20/8x18 LQFP48
-
ʚ
2
2
2
-
ʚ
2
2
2
7x7
MP Programmer
Mass Production
2 128 96 128 4x32/6x30/8x28 LQFP64
-
EVB
Package Size
NKML54SD
Package Type
ʚ
ComSeg LCD
2 128 96 128 4x21/6x19/8x17 LQFP44 10x10
UCID
NKNLGML54SD 48L
UID
ʚ
SPROM (Byte)
7x7
SPI
Shared
4+
4 ʚ 4 12 ʚ 14 2
with
256(B)
APROM
UART
Shared
4+
4 ʚ 4 12 ʚ 10 2
with
256(B)
APROM
ISO-7816-3
Internal Voltage Reference
RTC
ACMP
Touch Key
ADC (12-bit)
PWM (16-bit)
Timer (16-bit)
WDT
Shared
4+
4 ʚ 4 12 ʚ 10 2
with
256(B)
APROM
Security
Connectivity
-
࡛ ML56 ⡜⸆罳 LCD + 鍸䷬禺
System
Memory
Security
Display
Package
Status
Tool
ʚ
NKML56SD
LQFP64
ʚ
NKNLGML56SD 64S
LQFP48
4 ʚ 4 12 ʚ 10 2
6
ʚ
2
2
2
2 128 96 128
4x21/6x19/
8x17
4 ʚ 4 12 ʚ 14 2 14 ʚ
2
2
2
2 128 96 128
4x32/6x30/
8x28
I²C
SPI
UART
ACMP
UID
4x22/6x20/
8x18
UCID
2 128 96 128
SPROM (Byte)
2
ISO-7816-3
2
Touch Key
2
7x7
MP Programmer
Mass Production
LQFP44 10x10
ʚ
EVB
Package Size
NKNLGML56SD 48L
Package Type
ʚ
ComSeg LCD
Internal Voltage Reference
7x7
9
RTC
Shared
4+
with
256(B)
APROM
Connectivity
4 ʚ 4 12 ʚ 10 2
ADC (12-bit)
Shared
4+
with
256(B)
APROM
Analog
PWM (16-bit)
Timer (16-bit)
WDT
ML56SD1AE 8051 24 1.8 3.6 -40 105 55 - 64
Shared
4+
with
256(B)
APROM
PDMA (ch)
ML56MD1AE 8051 24 1.8 3.6 -40 105 38 - 64
Timer
SRAM (KB)
ML51 / ML54 / ML56
ML56LD1AE 8051 24 1.8 3.6 -40 105 42 - 64
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Core
Operating Voltage (max) (V)
Part No.
68
PDMA (ch)
ML54SD1AE 8051 24 1.8 3.6 -40 105 55 - 64
Operating Frequency (MHz)
NuMicro® Family 8051 MCUs
ML54MD1AE 8051 24 1.8 3.6 -40 105 38 - 64
Timer
SRAM (KB)
ML54LD1AE 8051 24 1.8 3.6 -40 105 42 - 64
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Core
Operating Voltage (min) (V)
Part No.
Operating Frequency (MHz)
Microcontrollers
࡛ ML54 ⡜⸆罳 LCD 禺
-
�䎾欽곭㚖工业自动化˚家庭自动化˚温控器˚ 人机接口˚ LED 灯调控制˚消费性产品等˛
Ⱒꝶ暶䚍提供高整合度的高精度 ADC 与电源管理单元Ə包括 BOD˚POR 与 LVR 等˚内建丰富外设 I²C˚UART˚SPI˚ADC˚PWM˚内
建 RC 振荡˚数据 Flash 区域
System
-
-
6
-
8
2
1
1
-
QFN20
3x3
ʚ
ʚ
4
-
-
6
-
8
2
1
1
-
ʚ
4
-
-
6
-
8
2
1
1
-
ʚ
4
-
-
6
8
-
2
-
1
TSSOP20 4.4x6.5
QFN20
4x32/6x30 PQFP44
3x3
10x10
ʚ
ʚ
ʚ
ʚ
4
-
-
6
8
-
2
-
1
4x32/6x30 LQFP48
7x7
ʚ
ʚ
4
-
-
6
8
-
2
-
1
4x32/6x30 LQFP44
10x10
ʚ
ʚ
4
-
6
-
10
-
2
1
1
-
QFN20
4x4
ʚ
ʚ
4
-
6
-
10
-
2
1
1
-
TSSOP20 4.4x6.5
ʚ
ʚ
4
-
6
-
10
-
2
1
1
-
TSSOP28
ʚ
4.4x9.7
NTN76E003
-
NTN76E003
NLG-20XB
NTNLG-MS51F
N76E003
NTN76E616
NTN76E616
NTN76E616
NTN76E885
NTN76E885
NTN76E885
-
NuMicro® Family 8051 MCUs
4
MP Programmer
ʚ
Tool
EVB
Mass Production
256(B) +
256(B)
Package Size
Shared with
APROM
Package Type
N76E885AT28 8051 25 2.4 5.5 -40 105 26 4 18
256(B) +
256(B)
ComSeg LCD
Shared with
N76E885AT20 8051 25 2.4 5.5 -40 105 18 4 18
APROM
256(B) +
256(B)
I²C
Shared with
N76E885AQ20 8051 25 2.4 5.5 -40 105 18 4 18
APROM
256(B) +
256(B)
SPI
Shared with
APROM
UART
N76E616AM44 8051 16 2.4 5.5 -40 105 42 4 18
256(B) +
256(B)
ADC (12-bit)
Shared with
N76E616AL48 8051 16 2.4 5.5 -40 105 46 4 18
APROM
256(B) +
256(B)
ADC (10-bit)
Shared with
N76E616AF44 8051 16 2.4 5.5 -40 105 42 4 18
APROM
768(B) +
256(B)
Status
PWM (16-bit)
Shared with
APROM
768(B) +
256(B)
Package
PWM (12-bit)
Shared with
APROM
Display
PWM (10-bit)
768(B) +
256(B)
WDT
N76E003BQ20 8051 16 2.4 5.5 -40 105 18 4 18
Shared with
APROM
Analog Connectivity
Timer (16-bit)
N76E003AT20 8051 16 2.4 5.5 -40 105 18 4 18
SRAM (KB)
N76E003AQ20 8051 16 2.4 5.5 -40 105 18 4 18
Timer
Data Flash (KB)
APROM Flash (KB)
GPIO
LDROM Flash (KB)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (min) (V)
Operating Voltage (max) (V)
Core
Operating Frequency (MHz)
Part No.
Memory
Microcontrollers
N76E 禺 (1T)
-
N76E 禺
69
�System
Memory
N79E815AS28 8051 24 2.4 5.5 -40 85 25
4
16
N79E815AT20 8051 24 2.4 5.5 -40 85 17
N79E815AT28 8051 24 2.4 5.5 -40 85 25
4
4
16
16
256(B) +
ʚ
256(B)
Shared with
APROM
256(B) +
ʚ
256(B)
Shared with
APROM
256(B) +
ʚ
256(B)
Shared with
APROM
MP Programmer
16
EVB
4
Mass Production
N79E815AS20 8051 24 2.4 5.5 -40 85 17
256(B) +
ʚ
256(B)
Shared with
APROM
Package Size
16
Package Type
4
256(B) +
ʚ
256(B)
Shared with
APROM
ComSeg LCD
N79E8132AS16 8051 24 2.4 5.5 -40 85 13
256(B) +
ʚ
256(B)
Shared with
APROM
I²C
16
SPI
4
UART
N79E715AT28 8051 24 2.4 5.5 -40 85 25
ADC (12-bit)
16
ADC (10-bit)
4
Shared with
APROM
256(B) +
ʚ
256(B)
Tool
PWM (16-bit)
N79E715AT20 8051 24 2.4 5.5 -40 85 17
256(B) +
ʚ
256(B)
256(B) +
ʚ
256(B)
Status
PWM (12-bit)
16
Shared with
APROM
Shared with
APROM
Package
PWM (10-bit)
4
16
256(B) +
ʚ
256(B)
Connectivity Display
4
-
-
8
-
2
1
1
-
SOP16
3.9x10
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
SOP20
7.6x13
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
SOP28
7.6x18
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
TSSOP20 4.4x6.5
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
TSSOP28
4.4x9.7
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
SOP16
3.9x10
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
SOP20
7.6x13
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
SOP28
7.6x18
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
TSSOP20 4.4x6.5
ʚ
NT-N79E715
-
4
4
-
-
8
-
2
1
1
-
TSSOP28
ʚ
NT-N79E715
-
WDT
4
Shared with
APROM
Analog
4
Timer (16-bit)
16
SRAM (KB)
NuMicro® Family 8051 MCUs
N79E715AS28 8051 24 2.4 5.5 -40 85 25
4
Timer
Data Flash (KB)
N79E715AS20 8051 24 2.4 5.5 -40 85 17
LDROM Flash (KB)
N79E715AS16 8051 24 2.4 5.5 -40 85 13
APROM Flash (KB)
GPIO
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Core
Operating Voltage (min) (V)
Part No.
Operating Frequency (MHz)
Microcontrollers
N79E 禺 (4T)
4.4x9.7
叻ⲥ㘗 8051禺
新唐标准型 8051 系列˚内建 22.1184 MHz 高精度振荡器 ˚并具备高抗干扰能力 (8 kV ESD, 4 kV EFT)˚4 K 字节独立 Flash 作为在线系统
编程 (In System Programming) 用途˛
N79E 禺 / 叻ⲥ㘗 8051禺
䎾欽곭㚖条形码读取设备˚数字电话˚多计算机切换器 (KVM)˚2.4G 无线键盘˚工控机˚显示器等
࡛�>���禺
Ⱒꝶ暶䚍6T/12T option, Extra I/O port
Connectivity
Part No.
SRAM (bytes)
ISP ROM (KB)
I/O
I²C
SPI
UART
ADC (10-bit)
Comp
ISP
INT
PWM (8-bit)
Timer (16-bit)
Special Function
8051
8
256
2
36
-
-
1
-
-
ʚ
4
-
3
6T/12T option, Extra I/O port
W78E054D
8051
16
256
2
36
-
-
1
-
-
ʚ
4
-
3
6T/12T option, Extra I/O port
W78E058D
8051
32
256 + 256
4
36
-
-
1
-
-
ʚ
4
-
3
6T/12T option, Extra I/O port
W78E516D
8051
64
256 + 256
4
36
-
-
1
-
-
ʚ
4
-
3
6T/12T option, Extra I/O port
PDIP40/PLCC44/PQFP44/
LQFP48//TQFP44
PDIP40/PLCC44/PQFP44/
LQFP48//TQFP44
PDIP40/PLCC44/PQFP44/
LQFP48
PDIP40/PLCC44/PQFP44/
LQFP48
Mass Production
Flash (KB)
W78E052D
Package
Core
70
Ⱒꝶ暶䚍内建丰富外设ƏUART˚SPI˚PWM˚RC 振荡˚数据 Flash 区域和在线系统程序设计 (In-System Programming)
ʚ
ʚ
ʚ
ʚ
�NUC970/980 禺
新唐 NUC970/980 工业网络系列提供堆栈 64 MB ~ 128 MB DDR 内存于 LQFP 封装Ə可缩小 PCB 尺寸与减少 EMI 问题˛提供了丰富的外设Ə
包括 11 组 UART˚双以太网与双 SDIO / eMMC 接口˚NAND 闪存接口˚LCD 控制器˚CAN 2.0B 接口和高速 USB 2.0 主机 / 设备控制器˚
可实现高度灵活性Ə 集成了加密引擎Ə包含 AES˚ECC˚RSA 和 SHA 功能提供硬件加速˛
䒓劼勻彂ƝSPI NOR˚SPI NAND˚NAND˚SD˚eMMC˚USB
Microcontrollers
NuMicro ® Arm9 ™ 䗏㢅椚㐼
䎾欽곭㚖Ɲ工业自动化˚人机界面˚工业物联网网关˚网路打印机˚以太网转换器˚智能家居匝道器˚电表集中器等
NUC970/980 Series
EBI
LCD
Crypto Engine
Linux
NUC980DF
ʚ
-
AES/ECC/RSA/SHA
ʚ
ʚ
-
AES/ECC/RSA/SHA
ʚ
-
-
AES/ECC/RSA/SHA
ʚ
ʚ
ʚ
AES/ECC/SHA/DES/3DES
ʚ
NUC980DK
NUC980DR
NUC972DF
NUC976DK
NUC977DK
-
-
AES/ECC/SHA/DES/3DES
ʚ
-
ʚ
AES/ECC/SHA/DES/3DES
ʚ
-
ʚ
AES/ECC/SHA/DES/3DES
ʚ
Ⱒꝶ暶䚍ƝMCP 工业规格 DDR 于 LQFP 封装˚双高速 USB 主机˚ 双 10/100 兆以太网口
NUC970/980 禺
System
Connectivity
Security Crypto Display
ʚ
-
ʚ
2
-
NUC980DF71YC ARM926EJ-S 300 2.97 3.63 -40 85 104 16 128 6
8
8
10 2
1
2
4
4
2 HL*6 1
1
2
ʚ
-
ʚ
2
-
NUC980DK63YC ARM926EJ-S 300 2.97 3.63 -40 85 92 16 64 6
8
8
10 2
1
2
4
4
2 HL*6 1
1
2
ʚ
-
ʚ
2
-
NUC980DK71YC ARM926EJ-S 300 2.97 3.63 -40 85 92 16 128 6
8
8
10 2
1
2
4
4
2 HL*6 1
1
2
ʚ
-
ʚ
2
-
NUC980DR63YC ARM926EJ-S 300 2.97 3.63 -40 85 40 16 64 6
5
2
8
2
-
2
2
2
1 HL*6 1
1
1
-
-
ʚ
1
-
NUC972DF63YC ARM926EJ-S 300 2.97 3.63 -40 85 146 56 64
-
4
8
11 2
-
2
2
2
2
-
1
1
2
ʚ
ʚ
ʚ
1 24bit
NUC972DF71YC ARM926EJ-S 300 2.97 3.63 -40 85 146 56 128 -
4
8
11 2
-
2
2
2
2
-
1
1
2
ʚ
ʚ
ʚ
1 24bit
NUC975DK63YC ARM926EJ-S 300 2.97 3.63 -40 85 87 56 64
-
4
4
10 2
-
2
2
1
2
-
1
1
1
ʚ
ʚ
ʚ
1
NUC976DK63YC ARM926EJ-S 300 2.97 3.63 -40 85 80 56 64
-
4
4
6
2
-
2
2
1
2
-
1
1
1
-
ʚ
ʚ
1 16bit
NUC977DK63YC ARM926EJ-S 300 2.97 3.63 -40 85 87 56 64
-
4
-
8
2
-
2
2
1
2
-
1
1
1
-
ʚ
ʚ
1 16bit
-
LQFP
24x24
216
LQFP
24x24
216
LQFP
14x14
128
LQFP
14x14
128
LQFP
10x10
64-EP
LQFP
24x24
216
LQFP
24x24
216
LQFP
14x14
128
LQFP
14x14
128
LQFP
14x14
128
ʚ
NKNUC980
ʚ
-
ʚ
NK-980IOT
ʚ
NK980IOTG2
ʚ
NKRTU980
ʚ
NDNUC972
ʚ
-
ʚ
NDNUC972
ʚ
ʚ
NUC970 / 980 禺
2
Tool
EVB
1
Status
Mass Production
Camera Interface
TFT-LCD Interface
2 HL*6 1
Package Size
Crypto
4
Package
Package Type
OTP
EBI
EMAC
USB HS Device/ Host
USB HS Host
4
USB FS Host
2
SDHC
CAN
I²C
SPI
QSPI
ISO-7816-3
UART
ADC (12-bit)
1
PDMA
10 2
DDR (MB)
8
GPIO
8
SRAM (KB)
NUC980DF63YC ARM926EJ-S 300 2.97 3.63 -40 85 104 16 64 6
Core
PWM (16-bit)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Memory Timer Analog
NuMicro® Family Arm9 MPUs
NUC975DK
NDNUC972
NDNUC972
71
�Microcontrollers
N9H 禺
新唐人机界面 N9H 系列基于 ARM926EJ-S 内核˛此系列包含 N9H20˚N9H26 和 N9H30Ə其工作主频分别为 200 MHz˚240 MHz 和 300
MHz˛它采用堆栈式 SDRAM 的多芯片封装ƋMCPƌƏ容量范围为 2 MB 至 128 MBƏ可显着降低 PCB 大小和电磁干扰ƋEMIƌƏ减少系统
设计工作并缩短产品设计周期˛
N9H 系列内建人机界面所需硬件Ə包含 24-bit TFT RGB 接口Ə最高分辨率支持 1024x768˚2D 图形硬体加速器˚JPEG/ H.264 影像编解码器˚
并能支持电容及电阻式触碰界面˛此外Ə新唐科技提供工业领先的 emWin 嵌入式互动图形界面库Ə让用户能够免费使用于产品Ə轻松的创建
流畅˚专业˚高质量的人机界面产品˛
䒓劼勻彂SPI NOR˚NAND˚SD˚eMMC
䎾欽곭㚖工业自动化设备˚智能楼宇˚智能家电˚医疗产品˚新能源应用及消费性产品等人机接口
工作主频 (MHz)
LCD
影像编解码
音讯编解码
以太网
CAN
工作温度
200
16 / 24bit
JPEG
ʚ
-
-
-20°C to 85°C
240
24 bit
JPEG/ H.264
ʚ
ʚ
-
-20°C to 85°C
300
16 / 24bit
JPEG
-
ʚ
ʚ
-40°C to 85°C
N9H26
N9H30
Ⱒꝶ暶䚍整合 SDRAM 达 128 MB 于 LQFP 封装˚LCD 支持最高 24 位 1024x768˚免费使用 emWin 库
System
Memory Timer Analog
Connectivity
Display
Package
Status
Tool
2D Graphics Engine
Mass Production
EVB
- 2 1 - 3
1-
1
-
-
-
-
-
24bit
ʚ
JPEG LQFP128 14x14
ʚ
-
N9H20K31N ARM926EJ-S 200 2.97 3.63 -20 85 70 8
8
4
2
4
3
-
2
- 2 1 - 3
1-
1
-
-
-
-
-
24bit
ʚ
JPEG LQFP128 14x14
ʚ
NKN9H20
Package Size
TFT-LCD Interface
2
Package Type
USB HS Host
-
Video Codec
USB FS Host
USB HS Device
Camera Interface
EBI
EMAC
USB HS Device/ Host
ADC (12-bit)
3
SDHC
CAN
I²C
SPI
ISO-7816-3
UART
ADC (10-bit)
4
Timer (32-bit)
PDMA (ch)
2
DDR (MB)
4
GPIO
2
SRAM (KB)
PWM (16-bit)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
Operating Voltage (max) (V)
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
N9H20K11N ARM926EJ-S 200 2.97 3.63 -20 85 70 8
Core
N9H 禺
72
Operating Voltage (min) (V)
Part No.
Operating Frequency (MHz)
NuMicro® Family Arm9 MPUs
系列
N9H20
N9H20K51N ARM926EJ-S 200 2.97 3.63 -20 85 70 8 32 4 2 4
3
-
2
- 2 1 - 3
1-
1
-
-
-
-
-
24bit
ʚ
JPEG LQFP128 14x14
ʚ
N9H20R11N ARM926EJ-S 200 2.97 3.63 -20 85 44 8
-
-
2
- 1 1 - 1
1-
1
-
-
-
-
-
16bit
ʚ
JPEG
TQFP6410x10
EP
ʚ
-
24bit
JPEG/
LQFP128 14x14
ʚ
H.264
ʚ
NKN9H26
2
4
2
4
N9H26K63N ARM926EJ-S 240 2.97 3.63 -20 85 80 8 64 4 4 4
-
7
- 2 1 - 3
1
1
1
-
N9H30F63IEC ARM926EJ-S 300 2.97 3.63 -40 85 146 56 64 - 5 4
-
8 11 2 2 2 2 2
2-
-
1
1 2 ʚ 1 24bit
ʚ
JPEG LQFP216 24x24
ʚ
NKN9H30
N9H30F71IEC ARM926EJ-S 300 2.97 3.63 -40 85 146 56 128 - 5 4
-
8 11 2 2 2 2 2
2-
-
1
1 2 ʚ 1 24bit
ʚ
JPEG LQFP216 24x24
ʚ
-
N9H30K63IEC ARM926EJ-S 300 2.97 3.63 -40 85 86 56 64 - 5 4
-
5
2-
-
1
1 1
ʚ
JPEG LQFP128 14x14
ʚ
-
2
9 2 2 2 1 2
1
-
-
-
1 16bit
�新唐 N329 影像系列提供堆栈 2 MB~64 MB DDR 内存于 LQFP 封装Ə可缩小 PCB 尺寸与减少 EMI 问题˛提供 JPEG 与 H.264 影像边译码
硬件引擎Ə且有丰富的外设Ə包括 UART˚以太网˚SDIO / eMMC 接口˚NAND 闪存接口˚LCD 控制器˚内建音讯编译码器和高速 USB 2.0
主机 / 设备控制器Ə可应用于消费类影音产品˛
䒓劼勻彂ƝSPI NOR˚SPI NAND˚NAND˚SD˚eMMC
系列
工作主频 (MHz)
影像编解码
Linux
N3290xR
200
JPEG
ʚ
200
JPEG
ʚ
200
JPEG
ʚ
240
JPEG/ H.264
ʚ
N3290xU
N3290xK
N3292xU
System
Connectivity
Display
Package
Status
Tool
Camera Interface
EMAC
TFT-LCD Interface
2D Graphics Engine
Video Codec
Mass Production
EVB
2
2
1
3
1
-
-
1
24bit
ʚ
JPEG
LQFP128 14x14
ʚ
ND-N32905
N32905K5DN
ARM926EJ-S 200 2.97 3.63 -20
85 70 8 32 4
2
4
3
2
2
1
3
1
-
-
1
24bit
ʚ
JPEG
LQFP128 14x14
ʚ
ND-N32905
N32901R1DN
ARM926EJ-S 200 2.97 3.63 -20
85 34 8
2
4
2
2
1
2
1
-
2
1
-
-
1
-
ʚ
JPEG
LQFP64 10x10
ʚ
ND-N32905
N32903R5DN
ARM926EJ-S 200 2.97 3.63 -20
85 34 8
8
4
2
2
1
2
1
-
2
1
-
-
1
-
ʚ
JPEG
TQFP6410x10
EP
I²C
PDMA (ch)
DDR (MB)
ʚ
ND-N32905
ʚ
ND-N32905
N32905R3DN
ARM926EJ-S 200 2.97 3.63 -20
85 34 8 32 4
2
2
1
2
1
-
2
1
-
-
1
-
ʚ
JPEG
TQFP6410x10
EP
N32901U1DN
ARM926EJ-S 200 2.97 3.63 -20
85 64 8
2
4
2
4
2
2
1
1
3
1
-
-
1
18bit
ʚ
JPEG
LQFP128 14x14
ʚ
ND-N32905
N32903U5DN
ARM926EJ-S 200 2.97 3.63 -20
85 64 8
8
4
2
4
2
2
1
1
3
1
-
-
1
18bit
ʚ
JPEG
LQFP128 14x14
ʚ
ND-N32905
N32905U3DN
ARM926EJ-S 200 2.97 3.63 -20
85 64 8 32 4
2
4
2
2
1
1
3
1
-
-
1
18bit
ʚ
JPEG
LQFP128 14x14
ʚ
ND-N32905
ʚ
JPEG/
H.264
LQFP128 14x14
ʚ
ND-N32926
N32926U6DN
ARM926EJ-S 240 2.97 3.63 -20
85 80 8 64 4
4
4
7
2
2
1
3
1
1
1
2
24bit
N329 禺
USB FS Host
USB HS Host
3
Package Size
SDHC
4
Package Type
UART
2
8
SPI
ADC (10-bit)
4
Timer (32-bit)
85 70 8
GPIO
ARM926EJ-S 200 2.97 3.63 -20
SRAM (KB)
N32903K5DN
Core
PWM (16-bit)
2SHUDWLQJ�7HPSHUDWXUH��PD[���ʝ�
2SHUDWLQJ�7HPSHUDWXUH��PLQ���ʝ�
Operating Voltage (max) (V)
Operating Voltage (min) (V)
Operating Frequency (MHz)
Part No.
Memory Timer Analog
-
NuMicro® Family Arm9 MPUs
Ⱒꝶ暶䚍2D 图形硬体加速器˚JPEG/ H.264 影像编解码器˚MCP SDRAM 高达 64 MB 于 LQFP 封装˚支持 LCD 接口˚内建音讯编译码器
Microcontrollers
N329 禺
73
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Smart Home
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84
Part No.
ROM
(Kbytes)
Duration (Sec.)
@ 4-bit NM4
(6 KHz)
(8 KHz)
VDD
(V)
CH
Fsys
(MHz)
OSC
Audio
PWM
DAC
RAM
(Bytes)
LVD
GPIO
PWM
Output
SIM
SPI
N567K030
126
34
26
2.2~5.5
6
4,6,8
TRIM/X'tal
12-bit
13-bit
384
-
24 I/O
-
ʚ
N567K041
158
44
33
2.2~5.5
6
4,6,8
TRIM/X'tal
12-bit
13-bit
384
-
24 I/O
-
ʚ
N567K080
286
84
63
2.2~5.5
6
4,6,8
TRIM
12-bit
13-bit
384
-
24 I/O
-
ʚ
N567K081
254
80
60
2.2~5.5
6
4,6,8
TRIM
12-bit
13-bit
384
ʚ
24 I/O
-
ʚ
N567K121
416
124
93
2.2~5.5
6
4,6,8
TRIM
12-bit
13-bit
384
-
24 I/O
-
-
N567K161
528
158
119
2.2~5.5
6
4,6,8
TRIM
12-bit
13-bit
384
-
24 I/O
-
-
N567K201
638
192
144
2.2~5.5
6
4,6,8
TRIM
12-bit
13-bit
384
-
24 I/O
-
-
N567K240
768
233
174
2.2~5.5
6
4,6,8
TRIM/X'tal
12-bit
13-bit
384
-
8I, 24 I/O
3-pair
ʚ
N567K280
896
272
204
2.2~5.5
6
4,6,8
TRIM/X'tal
12-bit
13-bit
384
-
8I, 24 I/O
3-pair
ʚ
N567K330
1022
311
233
2.2~5.5
6
4,6,8
TRIM/X'tal
12-bit
13-bit
384
-
8I, 24 I/O
3-pair
ʚ
��5���/���IP[�ɤ*�)HZL����JO�=VPJL���>H]L[HISL�4LSVK`�:`U[OLZPaLY
Duration (Sec.)
@ 4-bit NM4
Audio
CH
Fsys
(MHz)
OSC
26
2.2~5.5
8
4,6,8
44
33
2.2~5.5
8
84
63
2.2~5.5
8
124
93
2.2~5.5
158
119
2.2~5.5
638
192
144
768
233
174
N567H280
896
272
204
2.2~5.5
8
4,6,8
TRIM/X'tal
12-bit
13-bit
384
8I, 24 I/O
3-pair
ʚ
N567H330
1022
311
233
2.2~5.5
8
4,6,8
TRIM/X'tal
12-bit
13-bit
384
8I, 24 I/O
3-pair
ʚ
N567HP330 (OTP)
1022
311
233
2.2~5.5
8
4,6,8
TRIM/X'tal
12-bit
13-bit
384
8I, 24 I/O
3-pair
ʚ
ROM
(Kbytes)
(6 KHz)
(8 KHz)
N567H030
126
34
N567H041
158
N567H080
286
N567H121
416
N567H161
528
N567H201
N567H240
RAM
(Bytes)
GPIO
PWM
Output
SIM
SPI
13-bit
384
24 I/O
-
ʚ
12-bit
13-bit
384
24 I/O
-
ʚ
12-bit
13-bit
384
24 I/O
-
ʚ
TRIM
12-bit
13-bit
384
24 I/O
-
-
TRIM
12-bit
13-bit
384
24 I/O
-
-
PWM
DAC
TRIM/X'tal
12-bit
4,6,8
TRIM/X'tal
4,6,8
TRIM
8
4,6,8
8
4,6,8
2.2~5.5
8
4,6,8
TRIM
12-bit
13-bit
384
24 I/O
-
-
2.2~5.5
8
4,6,8
TRIM/X'tal
12-bit
13-bit
384
8I, 24 I/O
3-pair
ʚ
Audio
VDD
(V)
Part No.
�5���+���IP[��ɤ*�)HZL�����JO�=VPJL���>H]L[HISL�4LSVK`�:`U[OLZPaLY
Duration (Sec.)
@ 4-bit NM4
Channel
PWM
Output
SIM
SPI
13-bit
512
24 I/O
3-pin
ʚ
13-bit
512
24 I/O
3-pin
ʚ
12-bit
13-bit
512
24 I/O
3-pin
ʚ
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
2
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
242
2
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
293
2
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
436
327
2
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
1532
485
364
2
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
1020
323
242
2
14
4~8
Ring/X'tal
X'tal
12-bit
13-bit
512
24 I/O
3-pin
ʚ
Sub-Clock
32 KHz
14
4~8
Ring/X'tal
14
4~8
Ring/X'tal
2
14
4~8
110
2
14
161
121
2
640
203
152
768
243
896
Voice
WTM
N567D070
224
71
53
2
336
106
80
2
416
132
99
464
147
508
N567D120
N567D140
N567D160
N567D200
N567D240
N567D280
N567D320
N567D380
N567D420
N567D470
N567DP320 (OTP)
PWM
DAC
X'tal
12-bit
X'tal
12-bit
Ring/X'tal
X'tal
4~8
Ring/X'tal
14
4~8
2
14
183
2
284
213
1020
323
1232
390
1376
(6 KHz) (8 KHz)
BandDirector®
GPIO
OSC
ROM
(Kbytes)
N567D100
Audio
RAM
(Bytes)
Fsys
(MHz)
Part No.
禺
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Duration (Sec.)
@ 4-bit NM4
Channel
Part No.
ROM
(Kbytes)
Voice
WTM
N567L080
254
80
60
2
416
132
99
528
167
638
N567L120
N567L160
N567L200
N567L240
N567L280
N567L330
N567LP330 (OTP)
Audio
Vp
(V)
RAM
(Bytes)
LVD
GPIO
PWM
Output
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
12-bit
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
TRIM/X'tal
12-bit
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
4,6,8
TRIM/X'tal
12-bit
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
1.0~3.6V
4,6,8
TRIM/X'tal
12-bit
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
8
1.0~3.6V
4,6,8
TRIM/X'tal
12-bit
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
8
1.0~3.6V
4,6,8
TRIM/X'tal
12-bit
-
3.3, 4.2
384
ʚ
16 I/O
3-pair
VDD
Fsys
(MHz)
OSC
PWM
DAC
8
1.0~3.6V
4,6,8
TRIM/X'tal
12-bit
2
8
1.0~3.6V
4,6,8
TRIM/X'tal
12-bit
125
2
8
1.0~3.6V
4,6,8
TRIM/X'tal
202
152
2
8
1.0~3.6V
4,6,8
768
243
182
2
8
1.0~3.6V
896
284
213
2
8
1022
324
243
2
1022
324
243
2
(6 KHz) (8 KHz)
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Part No.
ROM
(Kbytes)
N566G120
Duration (Sec.)
@ 4-bit NM4
VDD
(V)
CH
Fsys
(MHz)
OSC
Audio
PWM
DAC
RAM
(Bytes)
LVD
GPIO
PWM
Output
Constant
Current
(6 KHz)
(8 KHz)
416
124
93
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
ʚ
N566G160
528
158
119
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
ʚ
N566G200
638
192
144
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
ʚ
N566G240
768
233
174
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
ʚ
N566G280
896
272
204
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
ʚ
N566G320
1022
311
233
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
ʚ
85
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Audio
Part No.
ROM
(Kbytes)
N566GP120
Duration (Sec.)
@ 4-bit NM4
VDD
(V)
CH
Fsys
(MHz)
OSC
Audio
PWM
DAC
RAM
(Bytes)
LVD
GPIO
PWM
Output
Constant
Current
(6 KHz)
(8 KHz)
416
124
93
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
-
N566GP160
528
158
119
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
-
N566GP200
638
192
144
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
-
N566GP240
768
233
174
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
-
N566GP280
896
272
204
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
-
N566GP320
1022
311
233
2.2~5.5
4
4,6,8
TRIM
12-bit
-
384
ʚ
24 I/O
2-pin
-
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Duration (Sec.)
@ 4-bit NM4
VDD
(V)
CH
Fsys
(MHz)
OSC
55
2.2~5.5
6
4,6,8
124
93
2.2~5.5
6
528
158
119
2.2~5.5
N566K200
638
192
144
N566K240
768
233
N566K280
896
N566K320
1022
Part No.
ROM
(Kbytes)
N566K080
254
74
N566K120
416
N566K160
Audio
PWM
DAC
RAM
(Bytes)
LVD
SIM
GPIO
PWM
Output
Constant
Current
TRIM
12-bit
-
384
ʚ
ʚ
24 I/O
2-pin
ʚ
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
174
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
272
204
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
311
233
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
(6 KHz) (8 KHz)
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Duration (Sec.)
@ 4-bit NM4
VDD
(V)
CH
Fsys
(MHz)
OSC
55
2.2~5.5
6
4,6,8
124
93
2.2~5.5
6
528
158
119
2.2~5.5
N566KP200
638
192
144
N566KP240
768
233
N566KP280
896
N566KP320
1022
Part No.
ROM
(Kbytes)
N566KP081
254
74
N566KP120
416
N566KP160
Audio
PWM
DAC
RAM
(Bytes)
LVD
SIM
GPIO
PWM
Output
Constant
Current
TRIM
12-bit
-
384
ʚ
ʚ
24 I/O
2-pin
-
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
174
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
272
204
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
311
233
2.2~5.5
6
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
(6 KHz) (8 KHz)
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86
Duration (Sec.)
@ 4-bit NM4
Audio
PWM
DAC
RAM
(Bytes)
LVD
SIM
GPIO
PWM
Output
Constant
Current
TRIM
12-bit
-
384
ʚ
ʚ
24 I/O
2-pin
ʚ
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
174
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
272
204
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
311
233
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
ʚ
VDD
(V)
CH
Fsys
(MHz)
OSC
55
2.2~5.5
8
4,6,8
124
93
2.2~5.5
8
528
158
119
2.2~5.5
N566H200
638
192
144
N566H240
768
233
N566H280
896
N566H320
1022
Part No.
ROM
(Kbytes)
N566H080
254
74
N566H120
416
N566H160
(6 KHz) (8 KHz)
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Duration (Sec.)
@ 4-bit NM4
Audio
DAC
RAM
(Bytes)
LVD
SIM
GPIO
PWM
Output
Constant
Current
TRIM
12-bit
-
384
ʚ
ʚ
24 I/O
2-pin
-
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
174
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
272
204
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
311
233
2.2~5.5
8
4,6,8
TRIM
12-bit
-
384
ʚ
-
24 I/O
2-pin
-
PWM
DAC
Vp
(V)
RAM
(Bytes)
LVD
PWM
Output
CH
Fsys
(MHz)
OSC
55
2.2~5.5
8
4,6,8
124
93
2.2~5.5
8
528
158
119
2.2~5.5
N566HP200
638
192
144
N566HP240
768
233
N566HP280
896
N566HP321
1022
ROM
(Kbytes)
N566HP081
254
74
N566HP120
416
N566HP160
(6 KHz) (8 KHz)
Audio
PWM
VDD
(V)
Part No.
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Duration (Sec.)
@ 4-bit NM4
ROM
(Kbytes)
N566LP120
416
124
N566LP160
528
N566LP200
Channel
(6 KHz) (8 KHz)
VDD
Fsys
(MHz)
OSC
Audio
Voice
WTM
93
2
8
1.0~3.6V
4,6,8
TRIM
12-bit
-
3.3, 4.2
384
ʚ
2-pin
158
119
2
8
1.0~3.6V
4,6,8
TRIM
12-bit
-
3.3, 4.2
384
ʚ
2-pin
638
192
144
2
8
1.0~3.6V
4,6,8
TRIM
12-bit
-
3.3, 4.2
384
ʚ
2-pin
N566LP240
768
233
174
2
8
1.0~3.6V
4,6,8
TRIM
12-bit
-
3.3, 4.2
384
ʚ
2-pin
N566LP280
896
272
204
2
8
1.0~3.6V
4,6,8
TRIM
12-bit
-
3.3, 4.2
384
ʚ
2-pin
N566LP320
1022
311
233
2
8
1.0~3.6V
4,6,8
TRIM
12-bit
-
3.3, 4.2
384
ʚ
2-pin
BandDirector®
Part No.
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Part No.
ROM
(Kbytes)
Working RAM
(Bytes)
Duration
(Sec.)
Dual Page
LCD RAM
(Bytes)
GPIO
N531A170
509
1K
170
128x2
16 I/O
Audio
PWM
DAC
LCD Resolution
(SEGxCOM)
Bias
Duty
12-bit
-
64x16
1/4, 1/5
1/8, 1/16
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DAC
24 I/O
12-bit
13-bit
64x16
1/4, 1/5
1/8, 1/16
128x2
24 I/O
12-bit
13-bit
64x16
1/4, 1/5
1/8, 1/16
128x2
24 I/O
12-bit
13-bit
64x16
1/4, 1/5
1/8, 1/16
ROM
(Kbytes)
Working RAM
(Bytes)
Duration
(Sec.)
Dual Page
LCD RAM
(Bytes)
GPIO
W539A804
505
1K
120
128x2
W539A806
761
1K
180
W539A808
1017
1K
250
Audio
Bias
Duty
ViewTalk® Series
PWM
LCD
Resolution
(SEGxCOM)
Part No.
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Dual Page
LCD RAM GPIO
(Bytes)
PWM
DAC
LCD
Resolution
(SEGxCOM)
24 I/O
12-bit
13-bit
64x32 or 72x24
6-pin
ʚ
1/4, 1/5, 1/6, 1/7
1/16, 1/24, 1/32
256x2x2
24 I/O
12-bit
13-bit
64x32 or 72x24
6-pin
ʚ
1/4, 1/5, 1/6, 1/7
1/16, 1/24, 1/32
250
256x2x2
24 I/O
12-bit
13-bit
64x32 or 72x24
6-pin
ʚ
1/4, 1/5, 1/6, 1/7
1/16, 1/24, 1/32
250
256x2x2
24 I/O
12-bit
13-bit
64x32 or 72x24
-
ʚ
1/4, 1/5, 1/6, 1/7
1/16, 1/24, 1/32
Part No.
ROM
(Kbytes)
Working
RAM
(Bytes)
Duration
(Sec.)
N539T171
509
1K
120
256x2x2
N539T261
765
1K
180
N539T341
1021
1K
N539TP340 (OTP)
1021
1K
Audio
PWM
Output
SIM
Bias
Duty
87
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Audio
Part No.
Input
Wake Up
VDD(V)
Interface
N55T16
16
ʚ
2.1~5.5
I²C, SPI
N55T24
24
ʚ
2.1~5.5
I²C, SPI
Part No.
Channel
Resolution
VDD(V)
Conversion Rate
N55AD808
8
8-bit
2.7~5.5
50 KHz
ADC
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NuVoice™
Part No.
Interface
GPIO
Wake Up
H/W PWM
Constant Current
Internal OSC
N55P242
SPI
24 I/O
ʚ
24-pin
24-pin
8 MHz
4-0+�-HTPS`
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系
列
Part No.
Category
Frequency (MHz)
ID type
ID No.
Anti-collision
µC Interface
N55MID16
Single-tag
13.56
Bonding-ID
729
-
-
N55MID36
Multi-tag
13.56
Bonding-ID
729
4~6 tags
-
N55MID51
Reader
13.56
-
-
-
Serial/Parallel
7(�-HTPS`
5��7(��7>4�7V^LY�(TWSPÄLY
Part No.
VDD (V)
Mute Function
Gain Control
MIC Line In
Output Power
Package
N55PA01A
2.0~5.5V
Yes
Ext. R
Yes
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SOP8
*N55PA03A
2.0~5.5V
Yes
Ext. R
Yes
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SOP8
* Under Development
88
�NSP 系列
NSP 系列是先进的语音 ICƏ内嵌 FlashƏ并配备新算法Ə可实现高品质音质的语音提示应用˛它提供 I2C˚UART 和 GPIO 接口与主机
MCU˚ISP 通信以进行内容更新Ə并支持高分辨率 PWM 输出直接驱动扬声器Ə适合所有语音辅助应用˛
Audio
NSP2xxxA 系列具有 0.5W 输出功率Ə采用 SOP8 封装形式˛
NSP2xxxA01G 系列具有 1.0W 输出功率Ə采用 SOP16 封装形式
NSP2xxxT06E 系列Ə带 6 个电容式触摸板Ə采用 TSSOP28 封装形式
NSP2xxxT16L 系列采用 LQFP48 封装形式Ə支持多达 16 个电容触摸板
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Audio
Duration(Sec)
Output Power
LVR
VDD
Part No.
Package
Interface to MCU
ISP
Speech CH
8KHz
12KHz
(V)
(V)
PWM
(@VDD 5.5V)
Operation
Temperature
SOP8
60
40
2.0~5.5
1.9
1
13-bit
0.5W
One-Wire, Two-Wire
No
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NSP082A
SOP8
94
63
2.0~5.5
1.9
1
13-bit
0.5W
One-Wire, Two-Wire
Yes
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NSP172A
SOP8
155
103
2.0~5.5
1.9
1
13-bit
0.5W
One-Wire, Two-Wire
Yes
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NSP342A
SOP8
337
225
2.0~5.5
1.9
1
13-bit
0.5W
One-Wire, Two-Wire
Yes
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NSP481A
SOP8
458
305
2.0~5.5
1.9
1
13-bit
0.5W
One-Wire, Two-Wire
Yes
���ʝa���ʝ
One-Wire, Two-Wire,
UART
Yes
���ʝa���ʝ
Yes
���ʝa���ʝ
Yes
���ʝa���ʝ
NSP650B
SOP14
701
467
2.0~5.5
1.9
1
13-bit
0.5W
NSP960B
SOP14
944
629
2.0~5.5
1.9
1
13-bit
0.5W
NSP2K0B
SOP14
1896
1264
2.0~5.5
1.9
1
13-bit
0.5W
One-Wire, Two-Wire,
UART
One-Wire, Two-Wire,
UART
NSP
NSP040A
系
列
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