FSP3300DD

厂商：
FOSLINK
封装：
描述：
FSP3300DD - 350 MA CONSTANT-CURRENT LED DRIVER - FOSLINK SEMICONDUCTOR CO.,LTD

数据手册：

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数据手册
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FSP3300DD 数据手册

350 MA CONSTANT-CURRENT LED DRIVER FSP3300 FEATURES No external component required 350mA constant sink current Output short circuit protection Low dropout voltage Low quiescent current Build-in thermal protection Supply voltage range 2.7V~7V 2KV HBM ESD protection Advanced CMOS process SOT89 and TO252 package GENERAL DESCRIPTION The FSP3300 is a low dropout current regulator rated for 350mA constant sink current. The low quiescent current and low dropout voltage is achieved by advanced CMOS process APPLICATIONS Power LED driver PIN CONFIGURATION (1) SOT89 (Top View) (2) TO252 (Top View) 3 2 GND VDD 1 OUT 2 GND 3 VDD 1 OUT Symbol 1 2 3 Name OUT GND VDD Descriptions Output pin, connect to load Ground Power supply BLOCK DIAGRAM 1/7 2007-1-25 350 MA CONSTANT-CURRENT LED DRIVER FSP3300 ABSOLUTE MAXIMUM RATINGS Symbol Parameter Rating Unit VDD Input Voltage 2.7 to 7 V VLEDn Output Voltage 2.7 to 7 V TJ Maximum Junction Temperature 150 ℃ ℃ Tstg Storage Temperature Range -40~+150 Note: Exceeding these ratings could cause damage to the device. All voltages are with respect to Ground. Currents are positive into, negative out of the specified terminal. ELECTRICAL CHARACTERISTICS (VDD=3.7V, TA=25℃, UNLESS OTHERWISE NOTED) Symbol ISINK Parameter Test Conditions Min. 305 Typ. 350 120 200 Max. 390 5 5 Unit mA mA/V mA/V mV µA Apply Pin OUT VDD Output Sink Current VOUT=0.2V Load Regulation VOUT=0.2V to 3V Line Regulation VDD=3V to 6V , VOUT=0.2V VOUTL Output Dropout Voltage IDD Supply Current Consumption Note: Output dropout voltage: 90% ×IOUT@ VOUT=200mV Recommended Operating Conditions Symbol VDD IOUT Ta Parameter Supply Voltage Output Sink Current Operating free-air temperature range Min. 2.7 -40 Typ. Max. 6 400 +85 Unit V mA ℃ Power Dissipation Table θJA Derating factor (mW/℃) Power rating (mW) Power rating (mW) Power rating (mW) TA≤25℃ (℃/W) TA=70℃ TA=85℃ TA≥25℃ PK 71 14.1 1763 1128 916 Note: Junction Temperature Calculation: TJ=TA+(PD×θJA). PD: Power Dissipation, TA: Ambient temperature, θJA: Thermal Resistance-Junction to Ambient. The θJA numbers are guidelines for the thermal performance of the device/PC-board system. All of the above assume no ambient airflow. Package 2/7 2007-1-25 350 MA CONSTANT-CURRENT LED DRIVER FSP3300 TYPICAL APPLICATIONS CIRCUIT (1) Typical Application Circuit Supply Voltage 2.7V to 7.0V 1 3 VDD OUT 2 GND Note: 1. The supply voltage should be larger than the forward voltage of the LED by 0.15V. VDD≥VLEDF+0.15 In the application of VDD= VLEDF+0.15, the chip works in the max efficiency and min power dissipation (2) Typical Application Circuit for Larger Current Supply Voltage 4*Battery ≥6V 1 3 VDD OUT 2 GND 1 3 VDD OUT 2 GND Note: The FSP3300 can be parallel connected to get larger driver current (about 700mA) for 3W LED. At this application, the supply voltage should be 6V at least for 3W LED. To minimize the chip power dissipation, there should be a diode connected between supply to VDD of the chip. The forward voltage of the diode should be less than 3.3V. APPLICATION INFORMATION The maximum power dissipation on regulator: PD(MAX)=VOUT(MAX)×IOUT(NOM)+VIN(MAX) ×IQ VOUT(MAX =the maximum voltage on output pin IOUT(NOM)=the nominal output current IQ =the quiescent current the regulator consumes at VIN(MAX =the maximum input voltage Thermal consideration: The FSP3300 have internal power and thermal limiting circuitry designed to protect the device under overload conditions. However maximum junction temperature ratings should not be exceeded under continuous normal load conditions. The thermal protection circuit of FSP3300 prevents the device from damage due to excessive power dissipation. When the device temperature rises to approximately 120℃, the regulator will be turned off. When power consumption is over about 700mW (SOT89-3L package at TA=70℃), additional heat sink is required to control the junction temperature below 120℃. The junction temperature is: TJ=PD(θJT+θCS +θSA)+TA PD: Dissipation power θJT: Thermal resistance from the junction to the mounting tab of the package θCS: Thermal resistance through the interface between the IC and the surface on which it is mounted. (typically, θCS≤1.0℃/W) 3/7 2007-1-25 350 MA CONSTANT-CURRENT LED DRIVER FSP3300 θSA: Thermal resistance from the mounting surface to ambient (thermal resistance of the heat sink) If PC Board copper is going to be used as a heat sink, below table can be used to determine the appropriate size of copper foil required. For multi-layered PCB, these layers can also be used as a heat sink, They can be connected with several through hole vias. PCB θSA (℃/W) PCB heat sink size (mm2) 59 500 45 1000 38 1500 33 2000 27 3000 24 4000 21 5000 TYPICAL PERFORMANCE CHARACTERISTICS 0.17 0.16 0.15 0.14 0.13 0.12 0.11 0.10 Quiescent Current vs Supply Voltage 0.22 0.20 0.18 0.16 0.14 0.12 0.10 20 Quiescent Current vs Temperature IQ(mA) IQ(mA) 2 2.5 3 VIN(V) 3.5 4 30 40 50 60 70 80 Temperature(℃) 90 100 Output Current vs Out-dropout Voltage 140 120 100 80 60 40 20 0 0.01 0.1 1 10 OUT-DROPOUT(V) OUT(mA) 4/7 2007-1-25 350 MA CONSTANT-CURRENT LED DRIVER FSP3300 ORDERING INFORMATION FSP3300X X X Package: Y: SOT89 D: TO252 Packing: Blank: Tube or Bulk A: Tape & Reel Temperature Grade: D: -40~85℃ MARKING INFORMATION (1) SOT89 (2) TO252 Logo Logo LAYMX Internal Code Date Code: Y: Year (1=2001) M: Month (1~9, O,N, D) Part Number: FSP3300 FSP3300 YYWWXX Part Number Internal Code Date Code: YY: Year (01=2001) WW: Nth week (01~52) 5/7 2007-1-25 350 MA CONSTANT-CURRENT LED DRIVER FSP3300 PACKAGE INFORMATION (1) SOT89 D1 1.7 E HE 0.4 1.9 L 2.7 e1 0.9 1.5 e Land Patten Recommendation (Unit :mm) 8°(2х) D 5°(2х) A b b1 b Symbol A b b1 C D D1 e e1 E HE L Min. 1.40 0.36 0.41 0.35 4.40 1.40 2.90 1.45 2.35 3.94 0.80 Dimensions In Millimeters Nom. 1.50 0.42 0.47 0.39 4.50 1.60 3.00 1.50 2.48 C Max. 1.60 0.48 0.53 0.43 4.60 1.75 3.10 1.55 2.60 4.25 1.20 Min. 0.055 0.014 0.016 0.014 0.173 0.055 0.114 0.057 0.093 0.155 0.031 Dimensions In Inches Nom. 0.059 0.016 0.043 0.015 0.177 0.062 0.118 0.059 0.098 1.3 Max. 0.063 0.018 0.051 0.017 0.181 0.069 0.122 0.061 0.102 0.167 0.047 6/7 2007-1-25 350 MA CONSTANT-CURRENT LED DRIVER FSP3300 (2) TO252 5.6 E b2 L2 11.0 5.6 2.25 L1 2.0 1.2 b e1 e Land Pattern Recommendation (Unit : mm) H C1 L 7.2 D C A1 SEATING PLANE SEE NOTE2 Notes: 1. JEDEC Outline:TO-252 AB 2. Mils suggested for positive contact at mounting Symbol A A1 b b2 C C1 D E e e1 H L L1 L2 Dimensions In Millimeters Nom. Max. 2.29 2.39 1.15 1.27 0.61TYP. 5.35 5.50 0.52 0.58 0.52 0.58 5.57 5.80 6.58 6.80 2.25BSC. 4.50BSC. 9.70 10.40 0.83 1.78 1.02 2.03 Dimensions In Inches Nom. 0.090 0.045 0.024TYP. 0.211 0.020 0.020 0.219 0.259 0.089BSC. 0.177BSC. 0.382 0.033 0.070 Min. 2.18 1.02 5.20 0.46 0.46 5.33 6.35 9.00 0.51 0.64 1.52 Min. 0.086 0.040 0.205 0.018 0.018 0.210 0.250 0.354 0.020 0.025 0.060 7/7 2007-1-25 A Max. 0.094 0.050 0.217 0.023 0.023 0.228 0.268 0.409 0.040 0.080

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FSP3300DD

1. 物料型号： - 型号：FSP3300 - 描述：350mA恒流LED驱动器

2. 器件简介： - FSP3300是一款用于350mA恒流输出的LED驱动器。它通过先进的CMOS工艺实现了低静态电流和低降压电压。 - 特点包括无需外部组件、350mA恒流输出、输出短路保护、低降压电压、低静态电流、内置热保护、2.7V-7V供电电压范围、2KV HBM ESD保护等。

3. 引脚分配： - SOT89和TO252两种封装的引脚配置如下： - SOT89（顶视图）：1（OUT）- 输出引脚，连接负载；2（GND）- 地；3（VDD）- 电源供电。 - TO252（顶视图）：同上。

4. 参数特性： - 供电电压范围：2.7V-7V - 最大结温：150°C - 存储温度范围：-40°C至+150°C - 电气特性（在VDD=3.7V，TA=25°C条件下）： - 输出恒流：305mA至390mA - 负载调整率：5mA/V - 线路调整率：5mA/V - 输出降压电压：120mV - 供电电流消耗：200μA

5. 功能详解： - FSP3300设计用于驱动LED，具有内部功率和热限制电路，以在过载条件下保护设备。当设备温度升至约120°C时，调节器将关闭。如果功耗超过约700mW（SOT89-3L封装在TA=70°C时），需要额外的散热器来控制结温低于120°C。

6. 应用信息： - 典型应用电路包括用于驱动LED的电路，以及对于需要更大电流（约700mA）的应用，FSP3300可以并联连接。 - 热考虑：如果使用PCB铜作为散热器，可以根据表格确定所需的铜箔大小。对于多层PCB，这些层也可以用作散热器，它们可以通过几个通孔焊盘连接。

7. 封装信息： - 提供SOT89和TO252两种封装，PDF中包含了详细的封装尺寸和安装图案推荐。

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