PAN9026
PAN9026 Wi-Fi Dual Band 2.4 GHz and 5 GHz and
Bluetooth Module
Product Specification
Rev. 1.2
Wireless Modules
PAN9026 Wi-Fi/Bluetooth Module
•
•
Overview
The PAN9026 is a 2.4 GHz and 5 GHz ISM band
Wi-Fi and Bluetooth radio module, which includes a
wireless radio for easy integration of Wi-Fi and
Bluetooth connectivity into various electronic
devices.
•
•
Features
• Dual band 2.4 GHz and 5 GHz 802.11 a/b/g/n
•
•
•
•
•
•
Coexistence interface for arbitration of colocated
WLAN, Bluetooth, or Mobile Wireless
System (e.g. LTE)
Generic interfaces include SDIO 3.0 and
high-speed UART for host processor connection
Software Linux driver
Characteristics
• Surface Mount Type (SMT)
Wi-Fi/Bluetooth combined module
•
Power management with sleep clock
17.5 mm x 10.0 mm x 2.6 mm
Supports 802.11i security standards through
AES, CCMP, and more security mechanisms
•
802.11e Quality of Service is supported for
multimedia applications
•
•
IEEE 802.11n-compliant, 1x1 spatial stream with
data rates up to MCS7 150 Mbps
•
Bluetooth 5.0, includes Low Energy (LE)
•
•
•
Dual simultaneous and independent WLAN and
Bluetooth operation
Dynamic Rapid Channel Switching (DRCS) for
simultaneous operation in 2.4 GHz and 5 GHz
bands
•
•
Indoor location and navigation with
IEEE 802.11mc
®
Marvell 88W8977 WLAN 2.4 GHz and 5 GHz
and Bluetooth single-chip solution inside
TX Power 16 dBm @ 802.11b
RX Sensitivity -98 dBm @ 802.11b DSSS
1 Mbps
IEEE 802.11n 20 MHz and 40 MHz
channel bandwidth
Long and Short Guard Interval support
Power supply 3.3 V, 2.2 V, 1.8 V
Current consumption Wi-Fi typical 400 mA @ TX
and 70 mA @ RX
SDIO 1-bit or 4-bit
Wide temperature range of -30 °C to 85 °C
Block Diagram
VIO 1.8 V
VDD 2.2 V
Crystal
26 MHz
VDD 1.8 V
Crystal
32.768 kHz
PAN9026
Wi-Fi & Bluetooth Radio Module
IEEE 802.11 a/b/g/n
Bluetooth 5.0 (BR, LE & EDR)
32 kHz DISABLE
SPI
GPIOs
BPF
PDN
Chip
Antenna
JTAG
88W8977
Radio SoC
UART
Status LED's
VIO SD
MCU Ready
DPX
50 Ohm
COEX
SPDT
SDIO Interface
Factory Reset
Wake Up's
PCM Interface
SPDT
CNTL
VIO RF 3.3 V
RF SW
RF Pad
V SPDT
Product Specification Rev. 1.2
Page 2
PAN9026 Wi-Fi/Bluetooth Module
By purchase of any of the products described in this document the customer accepts the document's
validity and declares their agreement and understanding of its contents and recommendations. Panasonic
reserves the right to make changes as required at any time without notification. Please consult the most
recently issued Product Specification before initiating or completing a design.
© Panasonic Industrial Devices Europe GmbH 2019.
This specification sheet is copyrighted. Reproduction of this document is permissible only if reproduction is
without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Do
not disclose it to a third party.
All rights reserved.
This Product Description does not lodge the claim to be complete and free of mistakes.
Engineering Samples (ES)
If Engineering Samples are delivered to the customer, these samples have the status “Engineering
Samples”. This means that the design of this product is not yet concluded. Engineering Samples may be
partially or fully functional, and they may differ from the published Product Specification.
Engineering Samples are not qualified and they are not to be used for reliability testing or series
production.
Disclaimer
The customer acknowledges that samples may deviate from the Product Specification and may bear
defects due to their status of development and the lack of qualification mentioned above.
Panasonic rejects any liability or product warranty for Engineering Samples. In particular, Panasonic
disclaims liability for damages caused by:
The use of the Engineering Sample other than for evaluation purposes, particularly the installation
or integration in another product to be sold by the customer,
Deviation or lapse in function of the Engineering Sample,
Improper use of the Engineering Sample.
Panasonic Industrial Devices Europe GmbH disclaims any liability for consequential and incidental
damages. In case of any queries regarding the Engineering Samples, please contact your local sales
partner or the related product manager.
Product Specification Rev. 1.2
Page 3
PAN9026 Wi-Fi/Bluetooth Module
Table of Contents
1
2
3
4
5
6
About This Document......................................................................................................................... 6
1.1
Purpose and Audience .............................................................................................................. 6
1.2
Revision History ......................................................................................................................... 6
1.3
Use of Symbols ......................................................................................................................... 7
1.4
Related Documents ................................................................................................................... 7
Overview .............................................................................................................................................. 8
2.1
Block Diagram ........................................................................................................................... 9
2.2
Pin Configuration ..................................................................................................................... 10
2.3
Power Management................................................................................................................. 15
2.4
Host Interfaces ........................................................................................................................ 16
2.5
Peripheral Bus Interface .......................................................................................................... 17
2.6
PCM Interface .......................................................................................................................... 17
2.7
Coexistence ............................................................................................................................. 18
2.8
WLAN ...................................................................................................................................... 29
2.9
Bluetooth ................................................................................................................................. 37
Detailed Description ......................................................................................................................... 39
3.1
Dimensions .............................................................................................................................. 39
3.2
Footprint .................................................................................................................................. 40
3.3
Packaging ................................................................................................................................ 41
3.4
Case Marking .......................................................................................................................... 44
Specification ..................................................................................................................................... 45
4.1
Default Test Conditions ........................................................................................................... 45
4.2
Absolute Maximum Ratings ..................................................................................................... 46
4.3
Recommended Operating Conditions ...................................................................................... 47
4.4
RF Electrical Characteristics .................................................................................................... 65
4.5
Reliability Tests ....................................................................................................................... 75
4.6
Recommended Soldering Profile ............................................................................................. 76
Cautions ............................................................................................................................................ 77
5.1
Design Notes ........................................................................................................................... 77
5.2
Installation Notes ..................................................................................................................... 77
5.3
Usage Condition Notes ............................................................................................................ 78
5.4
Storage Notes .......................................................................................................................... 78
5.5
Safety Cautions ....................................................................................................................... 79
5.6
Other Cautions ........................................................................................................................ 79
5.7
Restricted Use ......................................................................................................................... 80
Regulatory and Certification Information ....................................................................................... 81
6.1
Federal Communications Commission (FCC) for US .............................................................. 81
6.2
Innovation, Science, and Economic Development (ISED) for Canada .................................... 85
6.3
European Conformity According to RED (2014/53/EU) ........................................................... 94
6.4
Bluetooth Qualification ............................................................................................................. 97
6.5
RoHS And REACH Declaration ............................................................................................... 97
Product Specification Rev. 1.2
Page 4
7
PAN9026 Wi-Fi/Bluetooth Module
Appendix ........................................................................................................................................... 98
7.1
Ordering Information ................................................................................................................ 98
7.2
Contact Details ........................................................................................................................ 99
Product Specification Rev. 1.2
Page 5
PAN9026 Wi-Fi/Bluetooth Module
1 About This Document
1 About This Document
1.1
Purpose and Audience
This Product Specification provides details on the functional, operational, and electrical
characteristics of the Panasonic PAN9026 modules. It is intended for hardware design,
application, and Original Equipment Manufacturers (OEM) engineers. The product is referred to
as “the PAN9026” or “the module” within this document.
1.2
Revision History
Revision
Date
Modifications/Remarks
1.0
2017-12-20
Changed to Bluetooth 5.0.
Changed PM in chapter “Power Configuration Example with 3.3 V Host
Operation“.
Included values in chapter “Current Consumption“ and chapter ”RF
Characteristics“.
Removed chapter “TDM Interface”.
Additional models in chapter “Ordering Information”.
Added section in chapter “Acronyms and Abbreviations“.
1.1
2018-07-03
Renamed section in chapter “Restricted Use“.
Moved section in chapter “Life Support Policy”.
Added section in chapter “Restricted End Use“.
Added additional models “Ordering Information“.
1.2
2019-06-24
Changed Block Diagram in chapter “Power Configuration Example with 3.3 V
Host Operation“.
Added Table in chapter “Channel Tables based on Regulatory
Domain/Country“.
Changed Storage Temperature in chapter “Absolute Maximum Ratings“.
Changed Power-Up in chapter “Power-up Sequence“.
Restructure and update chapter “Cautions“.
Added section in chapter “Regulatory and Certification Information“.
Added additional models in chapter “Ordering Information“.
Formal and structure changes.
Product Specification Rev. 1.2
Page 6
PAN9026 Wi-Fi/Bluetooth Module
1 About This Document
1.3
Use of Symbols
Symbol
Description
Note
Indicates important information for the proper use of the product.
Non-observance can lead to errors.
Attention
Indicates important notes that, if not observed, can put the product’s functionality
at risk.
[chapter number]
[chapter title]
Cross reference
Indicates cross references within the document.
Example:
Description of the symbols used in this document 1.3 Use of Symbols.
1.4
Related Documents
Please refer to the Panasonic website for related documents 7.2.2 Product Information.
Product Specification Rev. 1.2
Page 7
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2 Overview
The PAN9026 is a dual band 2.4 GHz and 5 GHz 802.11 a/b/g/n Wi-Fi radio module with
integrated Bluetooth BR/EDR/LE, specifically designed for highly integrated and cost-effective
applications. The simultaneous and independent operation of the two standards enables high
data rates (802.11n) and low-power operation (Bluetooth Low Energy). Integrated power
management, a fast dual-core CPU, 802.11i security standard support, and high-speed data
interfaces deliver the performance for the speed, reliability, and quality requirements of next
generation products. TX power calibration data and Wi-Fi/Bluetooth system parameters are
pre-stored on the one-time-programmable memory of the PAN9026 during production at
Panasonic. This simplifies passing the certification process for PAN9026 customers.
Furthermore, the module reduces design, test, and calibration effort resulting in reduced
time-to-market compared to discrete solutions.
Integrating Wi-Fi and Bluetooth wireless connectivity allows applications such as Smart Energy
and home gateways to manage multiple devices and appliances. The combination of Wi-Fi and
Bluetooth provides the highest flexibility for connectivity.
Please refer to the Panasonic website for related documents 7.2.2 Product Information.
Further information on the variants and versions 7.1 Ordering Information.
Product Specification Rev. 1.2
Page 8
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.1
Block Diagram
VIO 1.8 V
VDD 2.2 V
Crystal
26 MHz
VDD 1.8 V
Crystal
32.768 kHz
PAN9026
Wi-Fi & Bluetooth Radio Module
IEEE 802.11 a/b/g/n
Bluetooth 5.0 (BR, LE & EDR)
32 kHz DISABLE
SPI
GPIOs
BPF
PDN
Chip
Antenna
JTAG
88W8977
Radio SoC
UART
Status LED's
VIO SD
MCU Ready
DPX
50 Ohm
COEX
SPDT
SDIO Interface
Factory Reset
Wake Up's
PCM Interface
SPDT
CNTL
VIO RF 3.3 V
RF SW
RF Pad
V SPDT
Product Specification Rev. 1.2
Page 9
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.2
Pin Configuration
Pin Assignment
G1
G2
G3
G4
G5
G6
G7
G8
G9
F1
F2
F3
F4
F5
F6
F7
F8
F9
E1
E2
E3
E4
D1
D2
D3
D4
C1
C2
C3
C4
B1
B2
B3
B4
B5
B6
B7
B8
B9
A1
A2
A3
A4
A5
A6
A7
A8
A9
E9
EP1
EP2
D9
Ground plane
keep out area
C9
Chip
Antenna
10,00 mm
Top View
17,50 mm
Pin Functions
No.
Pin Name
Pin Type
Description
A1 1
PCM_DOUT
Output signal
PCM data output signal
IO5
Digital I/O
General Purpose IO: GPIO[5]
A2
32KHZ_IN
NC
Do not connect
A3
PDN
Input signal
Power down (active-low) is derived from VDD1V8, can accept an
input signal of 1.8 V to 3.6 V (external pull-up resistor), it can be
driven by the host and must be high for normal operation.
A4
VDD1V8
Power
1.7 V to 1.9 V (typ. 1.8 V) power supply connection
A5
VDD1V8
Power
1.7 V to 1.9 V (typ. 1.8 V) power supply connection
A6
VDD2V2
Power
2.1 V to 2.3 V (typ. 2.2 V) power supply connection
A7
RF_SW1
Input signal
RF Switch Pin 1: logical voltage level to activate on-board antenna or
RF Pad RF-Switch Pins Function
A8
GND
Ground pin
Connect to ground
A9
RF_OUT
RF port
50 bottom pad to be activated by RF_SW1/RF_SW2 control
voltage RF-Switch Pins Function
1
Multi-purpose pins: After the firmware download, the pins (GPIO, Serial Interface, RF control) are programmed in functional
mode with dedicated functionality.
Product Specification Rev. 1.2
Page 10
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
No.
Pin Name
Pin Type
Description
B1 1
PCM_CLK
Input/output
PCM clock signal, output if PCM master, input if PCM slave
IO6
Digital I/O
General Purpose IO: GPIO[6]
PCM_DIN
Input signal
PCM data input signal
IO4
Digital I/O
General Purpose IO: GPIO[4]
PCM_SYNC 2
Input/output
PCM Sync Pulse signal, output if PCM master, input if PCM slave
IO7 3
Digital I/O
General Purpose IO: GPIO[7]
B4
32KHZ_EN
Input Signal
If using VIO 3.3 V disable the internal 32.768 kHz crystal oscillator
(100 to GND) to use the SoC reference clock with lower accuracy
B5
VDD2V2
Power
2.1 V to 2.3 V (typ. 2.2 V) power supply connection
B6
VDD2V2
Power
2.1 V to 2.3 V (typ. 2.2 V) power supply connection
B7
RF_SW2
Input signal
RF Switch Pin 2: logical voltage level to activate on-board antenna or
RF Pad RF-Switch Pins Function
B8
GND
Ground pin
Connect to ground
B9
GND
Ground pin
Connect to ground
C1
IO2
Digital I/O
General Purpose IO: GPIO[2]
DVSC[0]
Output signal
Digital voltage scaling control for PMIC (VOUT 2.2 V)
2.3.1 Power Configuration Example with 3.3 V Host Operation
IO3
Digital I/O
General Purpose IO: GPIO[3]
DVSC[1]
Output signal
Digital voltage scaling control for PMIC (VOUT 1.05 V) (not used)
C3
IO1
Digital I/O
General Purpose IO: GPIO[1]
C4
COEX_SIN
Input signal
Serial data input from MWS modem or peripheral device
C9
GND
Ground pin
Connect to ground
D1
IO15
Digital I/O
General Purpose IO: GPIO[15]
D2
IO14
Digital I/O
General Purpose IO: GPIO[14]
D3
DNC_E3
NC
Do not connect
D4
COEX_SOUT
Output signal
Serial data output to MWS modem or peripheral device
D9
GND
Ground pin
Connect to ground
E1
SD_CLK
Digital I/O
For SDIO specific terminals SDIO Pins Function
E2
SD_CMD
Digital I/O
For SDIO specific terminals SDIO Pins Function
E3
IO0
Digital I/O
General Purpose IO: GPIO[0]
E4
DNC_E4
NC
Do not connect
B2
1
B3 1
C2
2
PCM Mode: After enabling the mode by host command, the pin is used as PCM Audio Interface.
3
GPIO Mode: After enabling the mode by host command, the pin is used as Multi-Purpose Interface.
Product Specification Rev. 1.2
Page 11
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
No.
Pin Name
Pin Type
Description
E9
GND
Ground pin
Connect to ground
F1
SD_DAT0
Digital I/O
For SDIO specific terminals SDIO Pins Function
F2
SD_DAT1
Digital I/O
For SDIO specific terminals SDIO Pins Function
F3 1
UART_SOUT 4
Output Signal
Serial data output to peripheral device
Digital I/O
General Purpose IO: GPIO[8]
BT_FREQ 5
Input Signal
Information Bluetooth using channel which overlaps WLAN channel
or not
UART_SIN 4
Input signal
Serial data input to peripheral device
Digital I/O
General Purpose IO: GPIO[9]
BT_STATE 5
Input signal
Information BT_REQ priority (1-bit or 2-bit) and direction Bluetooth
RX/TX
UART_RTS 4
Output signal
Request-to-Send output to peripheral device
Digital I/O
General Purpose IO: GPIO[11]
BT_REQ 5
Input signal
Bluetooth device request access to medium
F6
IO12
Digital I/O
General Purpose IO: GPIO[12]
F7
CNTL1
Output signal
Do not connect
F8
CNTL0
Input signal
Keep open (DNC) if using SDIO interface for Bluetooth or connect
with 100 k to GND if using UART interface for Bluetooth Control
Pin Function
F9
GND
Ground pin
Connect to ground
G1
SD_DAT2
Digital I/O
For SDIO specific terminals SDIO Pins Function
G2
SD_DAT3
Digital I/O
For SDIO specific terminals SDIO Pins Function
G3
VIOSD
Power
1.8 V or 3.3 V Digital I/O SDIO power supply
G4
VIO
Power
1.8 V or 3.3 V power supply for General Purpose IO, if using VIO
3.3 V disable the internal 32.768 kHz crystal oscillator (Pin No. B4)
G5 1
UART_CTS 4
Input signal
Clear-to-send input from peripheral device
IO10 3
Digital I/O
General Purpose IO: GPIO[10]
Output signal
Indicate permission to transmit, low Bluetooth can transmit
IO8
F4 1
IO9
F5 1
3
3
IO11
3
BT_GRANT
5
G6
IO13
Digital I/O
General Purpose IO: GPIO[13]
G7
VIORF
Power
3 V to 3.6 V (typ. 3.3 V) power supply connection
G8
DNC
NC
Do not connect
G9
GND
Ground pin
Connect to ground
4
UART mode: After the dedicated firmware download, the pin is used as Host Controller Interface (HCI) for Bluetooth.
5
Bluetooth External Coexistence Mode: After enabling the mode by host command, the pin is used as Bluetooth external
Coexistence Interface.
Product Specification Rev. 1.2
Page 12
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
No.
Pin Name
Pin Type
Description
EP1
EPAD1
Thermal pin
Connect to ground
EP2
EPAD2
Thermal pin
Connect to gorund
Product Specification Rev. 1.2
Page 13
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
SDIO Pins Function
No.
Pin Name
Pin Type
Description
4-Bit Mode
1-Bit Mode
E1
SD_CLK
Digital I/O
Clock
Clock
E2
SD_CMD
Digital I/O
Command Line
Command Line
F1
SD_DAT0
Digital I/O
Data Line bit [0]
Data Line
F2
SD_DAT1
Digital I/O
Data Line bit [1] or Interrupt
(optional)
Interrupt
G1
SD_DAT2
Digital I/O
Data Line bit [2] or Read Wait
(optional)
Read Wait (optional)
G2
SD_DAT3
Digital I/O
Data Line bit [3]
Not used
RF-Switch Pins Function
No.
Pin Name
Pin Type
Logical Level for Activation
On-Board Chip Antenna
RF OUT Pin
A7
RF_SW1
Input signal
3 V to 3.6 V (typ. 3.3 V)
GND (0 V)
B7
RF_SW2
Input signal
GND (0 V)
3 V to 3.6 V (typ. 3.3 V)
Control Pin Function
The control pin is used as configuration input to set parameters following a reset. The definition
of the pin changes immediately after a reset to its usual function. To set a configuration bit to 0
bit, a 100 k resistor must be attached from the pin to ground. No external circuitry is required
to set a configuration bit to 0 bit.
No. Pin
Name
F8
CNTL0
Pin Type
Input Signal
Strap
Value
WLAN Bluetooth/
Bluetooth
LE
Firmware Download
Number SDIO
Functions
Type
Mode
0
SDIO
UART
SDIO+UART
Parallel/Serial 1 (WLAN)
1
SDIO
SDIO
SDIO+SDIO
Parallel/Serial 2 (WLAN,
Bluetooth)
The configuration of the control pin is used for the firmware boot option. The
software reads and boots accordingly.
Product Specification Rev. 1.2
Page 14
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.3
2.3.1
Power Management
Power Configuration Example with 3.3 V Host Operation
PAN9026
VDD 3.3 V
3.3 V
VIO RF
3.3 V
VIO/VIO SD
PMIC
2.2 V
VDD 2.2 V
VIN
1.8 V
VDD 1.8 V
VDD 3.3 V
or Host GPIO
Enable
3.3 V
DVSC[0]
88PG823
32KHZ_EN
R
100 Ohm
2.3.2
Power Configuration Example with 1.8 V Host Operation
VDD 1.8 V
1.8 V
1.8 V
DC
3.3 V
3.3 V
PAN9026
VIO/VIO SD
VIO RF
DC
Step-up
3.3 V
DC
2.2 V
2.2 V
VDD 2.2 V
DC
Dual
Step-down
2.2 V
LDO
1.8 V
VDD 1.8 V
For further information please refer to 4.3.4 Power-up Sequence.
Product Specification Rev. 1.2
Page 15
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.4
Host Interfaces
The bus interface connects several host interface bus units to the CPU bus of the device
through the internal bus. The connection of each unit is multiplexed with other bus units.
The high-speed UART interface is connected to the CPU bus through a separate bus.
Type
Features
High-speed UART interface
The device supports a high-speed Universal Asynchronous
Receiver/Transmitter (UART) interface, compliant with the industry
standard 16550 specification.
•
•
•
•
SDIO interface
FIFO mode permanently selected for transmit and receive operations
Two pins for transmit and receive operations
Two flow control pins
Interrupt triggers for low-power, high throughput operation
The device supports an SDIO device interface that conforms to the
industry standard SDIO full-speed card specification and allows a host
controller using the SDIO bus protocol to access the device.
•
•
•
•
•
Supports SDIO 3.0 Standard
1-bit SDIO or 4-bit SDIO transfer modes with full clock range up to
100 MHz
On-chip memory used for CIS
Special interrupt register for information exchange
Allows card to interrupt host
For further information please refer to 4.3.5 Host Interface.
Product Specification Rev. 1.2
Page 16
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.5
Peripheral Bus Interface
The Peripheral Bus Unit (PBU) connects several low speed peripherals to the internal bus of the
device. The device consists of the GPIO Interface and the One Time Programmable Memory.
Type
General Purpose I/O
(GPIO) Interface
One Time Programmable
Memory (OTP)
Features
•
•
•
•
•
•
User-defined GPIOs (each configured to either input or output)
Each GPIO controlled independently
Each I/O configurable to output bit from GPIO_OUT
Storing device-specific calibration data and hardware information like
MAC/BD address, WLAN, and Bluetooth parameter
Programmed during production process of device
Device performs calibration when it is powered up
For further information please refer to 4.3.6 Peripheral Interface.
2.6
PCM Interface
The device supports the PCM interface.
Type
PCM Interface
Features
•
•
•
•
Master or slave mode
PCM bit width size of 8 bits or 16 bits
Up to four slots with configurable bit width and start positions
Short frame and long frame synchronization
For further information please refer to 4.3.7 Audio Interface.
Product Specification Rev. 1.2
Page 17
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7
Coexistence
The implemented coexistence framework is based on the IEEE 802.15.2 recommended practice
Packet Traffic Arbitration (PTA) scheme and the Bluetooth Special Interest Group (Bluetooth
SIG) Core Specification Volume 7 (Wireless Coexistence Volume).
2.7.1
WLAN/Bluetooth Channel Information Exchange
Since Bluetooth and IEEE 802.11 b/g/n WLAN use the same 2.4 GHz frequency band, each can
cause interference with another. The level of interference depends on the respective frequency
channel used by Bluetooth and WLAN (other factors can impact interference, like Tx power and
Rx sensitivity of the device).
In a system with both Bluetooth and WLAN, the common host receives information about WLAN
channel usage and passes the information to the Bluetooth device. For Bluetooth 1.2 devices
with Adaptive Frequency Hopping (AFH) enabled, the Bluetooth device can block channel
usage that overlaps the WLAN channel in use.
When the Bluetooth device avoids all channels used by the WLAN, the impact of interference is
reduced, but not completely eliminated. For Bluetooth 1.1 devices, the Bluetooth device cannot
block WLAN channel usage. In this case, a Bluetooth Coexistence Arbiter (BCA) scheme at
MAC level is required. The BCA scheme can also be used with Bluetooth 1.2 devices to further
reduce the impact of interference to a minimum.
2.7.2
External Mobile Wireless System (LTE/ZigBee®) and BCA Exchange
Based on the Bluetooth SIG Wireless Coexistence Volume, the device supports a Wireless
Coexistence Interface 2 (WCI-2) protocol for WLAN and Bluetooth coexistence with an external
Mobile Wireless System (MWS), such as a Long Term Evolution (LTE) or ZigBee device.
WCI-2 is a 2-wire transport interface. An internal coexistence is used to exchange request/grant
with the BCA.
Product Specification Rev. 1.2
Page 18
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7.3
System Configuration
External MWS Device
RF Front End
BCA BT
CTL
WLAN
MAC
BCA WLAN
CTL
Bluetooth
BCA
COEX SIN
MWS to BCA
COEX SOUT
BCA to MWS
External LTE
Device
88W8977 Radio SoC
Host
External BCA Device
BT REQ
BT STATE
BCA
BCA WLAN CTL
WLAN
MAC
BT FREQ
BT GRANTn
88W8977 Radio SoC
Product Specification Rev. 1.2
External BCA Device
Page 19
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7.4
WCI-2 Interface
The coexistence interface includes a Mobile Wireless System (MWS) transport controller to
accommodate a 2-wire, UART-based serial transport interface. This interface is a standard
full-duplex UART (TXD and RXD) carrying logical signals framed as UART characters. In
addition, it allows support of multiple logical channels.
Interface Signals
Pin No.
Signal Name
Specification
Name
Pin Type
Description
C4
COEX_SIN
RXD
Input
Serial data from external MWS device
D4
COEX_SOUT
TXD
Output
Serial data to external MWS device
Signal Waveform Format
The messaging is based on a standard UART format. The UART signals should be connected
like a null-modem. For example, the local TXD connected to the remote RXD and vice versa.
Interface Transport Settings
Item
Range
Baudrate
Comment
921 600 to 4 000 000 Baud
Data Bits
8 LSB first
Parity Bits
0 No parity
Stop Bit
1 One stop bit
Flow Control
No
No flow control
Supported Baud Rates
Baud
921 600
Product Specification Rev. 1.2
2 000 000
3 000 000
4 000 000
Page 20
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Real-Time Signaling Message
The real-time signaling message is used to transport real-time signals over the 2-wire transport
interface.
The real-time signaling message conveys the real-time signals (Bluetooth Core Specification,
Volume 7, Part A) in one message. The time reference point for the real-time signaling message
is the end of message bit 5 (transition to stop bit).
Defined real-time signaling messages include:
•
•
Coexistence Controller to MWS device
MWS device to Coexistence Controller
Real-Time Signaling
MSG[0]
MSG[1]
MSG[2]
MSG[3]
MSG[4]
MWS to Coexistence
Controller (Signal)
FRAME_SYNC
MWS_RX
MWS_TX
PATTERN[0]
PATTERN[1]
Coexistence Controller to
MWS (Message)
BT_RX_PRI
BT_TX_ON
802_RX_PRI
802_TX_ON
RFU
Signal Name
FRAME_SYNC
MWS_RX
MWS_TX
PATTERN[1,0]
BT_RX_PRI
BT_TX_ON
802_RX_PRI
802_TX_ON
MWS_INACTIVITY_DURATION
MWS_SCAN_FREQUENCY_OFFSET
Product Specification Rev. 1.2
Page 21
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Transport Control Message
The transport control messages can modify the state and request state information of the MWS
coexistence interface.
Message
MSG[0]
MSG[1]
MSG[2]
MSG[3]
MSG[4]
Transport Control Message
RESEND_REA
L_TIME
RFU
RFU
RFU
RFU
Signal Name
Description
RESEND_REAL_TIME
This bit is set if a device wants to get a status update of the real-time signals.
The signal is usually used after wake-up from sleep of the transport interface
to get an update of the real-time signals.
If the receiving device’s transport interface is awake it shall send a real-time
message with the current status of the real-time signals within four UART
character period. If the signal is not transmitted within four UART character
periods, the device is considered asleep.
If the receiving device’s transport interface is not awake it shall not send a
real-time message.
Bluetooth initiated:
If the MWS is currently scanning or has an ongoing inactivity duration, the
MWS shall send a frequency scan message or an inactivity duration message
after transmitting the real-time message.
If the receiving device’s transport interface is not awake it shall not send a
frequency scan or inactivity duration message.
Transparent Data Message
The transport control messages can modify the state and request state information of the MWS
coexistence interface.
Message
MSG[0]
MSG[1]
Transparent Data
Message
NIBBLE_POS DATA[0]/
ITION
DATA[4]
Signal Name
Description
NIBBLE_POSITION
0 = least significant nibble
MSG[2]
MSG[3]
MSG[4]
DATA[1]/
DATA[5]
DATA[2]/
DATA[6]
DATA[3]/
DATA[7]
1 = most significant nibble
DATA[n]; n=0 … 7
Product Specification Rev. 1.2
Data bits of the message octet
Page 22
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
MWS Inactivity Duration Message
The inactivity duration messages is used to send the signal MWS_INACTIVITY_DURATION
from the MWS device to the Coexistence Controller.
Message
MSG[0]
MSG[1]
MSG[2]
MSG[3]
MSG[4]
MWS Inactivity Duration
Message
DURATION[0]
DURATION[1]
DURATION[2]
DURATION[3]
DURATION[4]
The idle duration is encoded in 5 bits given by the formula:
Inactivity_Duration = DURATION * 5 ms
Inactivity durarations smaller than 5 ms are not communicated.
If all bits are set to 1 the inactivity duration is infinite. If all bits are set to 0, signal MWS_RX, or
signal MWS_TX are set to 1, the inactivity period ends.
MWS Scan Frequency Offset Message
The MWS scan frequency offset message is used to send the signal
MWS_SCAN_FREQUENCY_ OFFSET from the MWS device to the Coexistence Controller.
Message
MSG[0]
MSG[1]
MSG[2]
MSG[3]
MSG[4]
MWS Scan Frequency
Offset
BAND
FREQ[0]
FREQ [1]
FREQ [2]
FREQ [3]
The RF scan frequency is encoded in 5 bits given by the formula:
RF_FREQ_OFFSET = FREQ * 10 MHz
If BAND is set to o the signal RF_FREQ_OFFSET is the negative value from the lower edge of
the ISM band. If BAND is set to 1, signal RF_FREQ_OFFSET is the positive value from the top
edge of the ISM band.
FREQ set to all 0 indicates the end of the scan period.
Product Specification Rev. 1.2
Page 23
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7.5
Bluetooth Coexistence Arbiter
Type
Features
Capability
•
•
•
•
•
•
Arbitration
•
•
•
AFH
Programmable coexistence interface timing, interface modes, and signal
polarity to support a variety of external Bluetooth devices
Programmable decision policies and transaction lock behavior for
various use cases
Interface with external or on-chip Bluetooth device
Supports Bluetooth 1.1 or Bluetooth 1.2 AFH
WLAN-coordinated/Bluetooth-coordinated low-power design
Enhanced information sharing between WLAN and Bluetooth for
combined systems
WLAN/Bluetooth/MWS (LTE/ZigBee) coexistence support
Contention resolved by a customizable decision matrix that allows
independent grant decision for each device
Vectors for the decision matrix:
WLAN priority (2-bit)
WLAN direction
Bluetooth priority (1-bit or 2-bit)
Bluetooth direction
Bluetooth frequency in/out band
MWS priority (2-bit)
MWS direction
If AFH is enabled in the Bluetooth device, and there is a sufficient
guard-band outside the WLAN operating frequency, the Bluetooth device
uses the Out-Of-Band (OOB) channel with respect to the WLAN device.
Otherwise, the Bluetooth device uses the In-Band (IB) and OOB channels
with respect to the WLAN device.
The IB and OOB information is either provided by the Bluetooth device
through the coexistence interface, or it can be provided through firmware
controls in a shared-host system. IB/OOB is a vector in the decision matrix.
Product Specification Rev. 1.2
Page 24
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Type
Features
Decision Policies
System configuration is a major consideration when planning decision
policies. The configuration governs how RF paths are shared and how
much interference will occur. Interference combinations include:
WLAN TX and Bluetooth TX
WLAN TX and Bluetooth RX
WLAN RX and Bluetooth TX
WLAN RX and Bluetooth RX
Interference combinations where WLAN and Bluetooth share the same
antenna:
WLAN TX and Bluetooth TX share the same antenna, the decision
matrix allows either WLAN or Bluetooth TX (both OOB and IB), based
on relative packet priorities.
WLAN TX and Bluetooth RX (both OOB and IB) have sizable
interference impacts on Bluetooth RX, the decision matrix grants or
denies WLAN TX based on relative packet priorities.
WLAN RX and Bluetooth TX (both OOB and IB) have sizable
interference impacts on WLAN RX, the decision matrix grants or
denies Bluetooth TX based on relative packet priorities.
WLAN RX and Bluetooth RX (both OOB and IB) have no impact on
each other, the decision matrix grants both.
Interference combinations where WLAN and Bluetooth have their own
antenna:
WLAN TX and Bluetooth TX in OOB situation have little interference
impact on each other, the decision matrix grants both.
WLAN TX and Bluetooth TX in IB have sizable interference impact on
each other, the decision matrix allows either WLAN or Bluetooth TX,
based on relative packet priorities.
WLAN TX and Bluetooth RX in OOB situation have little interference
impact on each other, the decision matrix grants both provided there
is enough antenna isolation between WLAN and Bluetooth antenna.
WLAN TX and Bluetooth RX in IB situation have sizable interference
impact on Bluetooth RX, the decision matrix grants or denies WLAN
TX based on relative packet priorities.
WLAN RX and Bluetooth TX in OOB situation have little interference
impact on each other, the decision matrix grants both provided there
is enough antenna isolation between WLAN and Bluetooth antenna.
WLAN RX and Bluetooth TX in IB situation have sizable interference
impact on WLAN RX, the decision matrix grants or denies Bluetooth
TX based on relative packet priorities.
WLAN RX and Bluetooth RX (both OOB and IB) have no impact on
each other, the decision matrix grants both.
For the devices running in a basic shared antenna configuration, the linear
switching imposes restrictions on simultaneous transfer. Reasonable
policies include:
WLAN and Bluetooth are never granted at the same time
Decision matrix grants a device based on relative packet priorities
and direction
Priority order: High > Medium High > Medium > Low
For equal priority contention, select one device to win, that optimizes
the usage case
For the devices running in an enhanced shared antenna configuration, the
linear switching imposes restrictions on some simultaneous transfers.
Product Specification Rev. 1.2
Page 25
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7.6
Type
Features
Transaction Stopping
The arbiter allows control of what transfers can be stopped after an initial
grant. If allowed, a transaction can be stopped for higher priority request.
A transaction stop decision is a function of the decision policies and
transaction stopping control. The transaction stopping control is
configurable per device and direction.
Bluetooth Capability
Type
Features
Request Schemes
The PTA signals are directly controlled by the hardware to meet timing
requirements of the Bluetooth radio. The software controls the type of traffic
in priority mode. Mechanism enforced for control include:
•
•
•
•
Timing Control
2.7.7
Selection of certain types of communication always treated as high
priority
Selection of individual frames marked with high priority
Real-time signaling of the next slot marked with high priority
Automatic hardware control, based on the grant/denial history of the
Bluetooth link
The signal timing scheme PTA is fully programmable relative to the
Bluetooth packet timing.
WLAN Capability
Type
Features
Capability
The WLAN device technology uses an internal coexistence interface to
exchange request/grant with the BCA.
•
•
•
•
Packet Classification
Queue Classification
•
•
•
•
•
•
Product Specification Rev. 1.2
Packet-based request signaling with direction and priority information
1-bit or 2-bit priority signaling to support four priority levels
Multiple WLAN RX request trigger sources, including early prediction
WLAN TX request cancellation and abort if grant denied or revoked in
middle of request
802.11n A-MPDU treated as single packet
Programmable mask allows each frame type to be mapped to a priority
Default setting puts response frames (ACK), beacons, and QoS frames
as high priority
WLAN TX and RX have separate priority mask
Programmable mask allows each transmit queue to be mapped to a
priority
Queue-based mapping is optional for software-generated frames only
Page 26
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7.8
LTE (MWS) Capability
The device supports a Bluetooth SIG WCI-2 MWS coexistence signaling interface. The
coexistence logical signaling is designed to enable a standard interface to allow an MWS device
and a Coexistence Controller to exchange information and support cooperative coexistence.
The WCI-2 signals carry time-critical information such as the start point of an MWS frame. The
logical coexistence signaling architecture also includes transparent data messaging and vendor
specific data messaging mechanism to enable passing information to and from the collocated
MWS device and Coexistence Controller when long latency (tens of milliseconds) cannot be
tolerated.
For further information please refer to 2.7.4 WCI-2 Interface.
Coexistence Signals
The logical signals assist in time alignment, protecting MWS from interference and maximizing
the usability of the Bluetooth radio.
Time-Critical Coexistence Signals
Signal Name
Direction
FRAME_SYNC
MWS to Bluetooth
BT_RX_PRI
Bluetooth to MWS
BT_TX_ON
Bluetooth to MWS
802_RX_PRI
Bluetooth to MWS
802_TX_ON
Bluetooth to MWS
MWS_PATTERN
MWS to Bluetooth
MWS_RX
MWS to Bluetooth
MWS_TX
MWS to Bluetooth
MWS_INACTIVITY_DURATION
MWS to Bluetooth
MWS_SCAN_FREQUENCY_OFFSET
MWS to Bluetooth
MWS_TX_PRIL (MWS TX Priority Level)
MWS to Bluetooth
MWS_RX_PRIL (MWS RX Priority Level)
MWS to Bluetooth
Product Specification Rev. 1.2
Page 27
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.7.9
ZigBee (MWS) Coexistence Capability
ZigBee is based on the IEEE 802.15.4 standard and it is used by a suite of communication
protocols to create Personal Area Networks (PANs) supporting home automation, lighting
control, etc. ZigBee radios operate in the 2.4 GHz ISM band worldwide. Unlike Bluetooth, the
ZigBee specification does not use AFH. When coexisting with WLAN/Bluetooth in the 2.4 GHz
band, it is important to avoid co-channel (IB) operation of these radios.
The device re-uses the MWS coexistence interface to support ZigBee coexistence. The
coexistence logical signaling is used to allow a ZigBee device and a WLAN/Bluetooth combined
device to exchange information and support cooperative coexistence.
Coexistence Signals
The logical signals used for ZigBee and WLAN/Bluetooth coexistence are a subset of the LTE
coexistence signaling. Considering the lower data rate of ZigBee packets, a lower baud rate
may be chosen for the 2-wire UART physical interface. The BCA supports 3-way arbitration
among ZigBee/WLAN/Bluetooth requests.
Coexistence Signals
Signal Name
Direction
MWS_RX
MWS to Bluetooth
MWS_TX
MWS to Bluetooth
MWS_PATTERN
MWS to Bluetooth
MWS_RX_PRI
MWS to Bluetooth
MWS_TX_PRI
MWS to Bluetooth
802_RX_PRI
Bluetooth to MWS
802_TX_ON
Bluetooth to MWS
BT_RX_PRI
Bluetooth to MWS
BT_TX_ON
Bluetooth to MWS
Product Specification Rev. 1.2
Page 28
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.8
WLAN
Type
IEEE 802.11/
Standards
WLAN MAC
Features
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Product Specification Rev. 1.2
802.11 data rates 1 and 2 Mbps (DSSS)
802.11b data rates 5.5 and 11 Mbps (CCK)
802.11a/g data rates 6, 9, 12, 18, 24, 36, 48, and 54 Mbps (OFDM)
802.11b/g performance enhancements
802.11n with maximum data rates up to 72 Mbps (20 MHz channel) and
150 Mbps (40 MHz channel)
802.11e quality of service (QoS)
802.11h transmit power control
802.11h DFS radar pulse detection
802.11i enhanced security (WEP, WPA, WPA2)
802.11k radio resource measurement
802.11mc precise indoor location and navigation
802.11n block acknowledgment extension
802.11r fast hand-off for AP roaming
802.11u Hotspot 2.0 (STA mode only)
802.11v TIM frame transmission/reception
802.11w protected management frames
Support clients (stations) implementing IEEE Power Save mode
Frame exchange at the MAC level to deliver data
Received frame filtering and validation (CRC)
Generation of MAC header and trailer information (MPDUs)
Fragmentation of data frames (MSDUs)
Access mechanism support for fair access to shared wireless medium
through:
Distributed Coordination Function (DCF)
Enhanced Distributed Channel Access (EDCA)
A-MPDU aggregation/de-aggregation
20 MHz and 40 MHz channel coexistence
RIFS burst receive
Management information base
Radio resource measurement
Quality of service
Block acknowledgement
Dynamic frequency selection
TIM frame TX and RX
Multiple BSS/Station
Transmit rate adaption
Transmit power control
Page 29
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Type
WLAN Baseband
Features
•
•
•
•
•
•
•
•
•
WLAN Radio
•
•
•
•
•
•
•
WLAN Encryption
•
•
•
•
•
•
•
Product Specification Rev. 1.2
802.11n 1x1 SISO (WLAN SoC with SISO RF radio)
Backward compatibility with legacy 802.11a/b/g technology
WLAN/Bluetooth LNA sharing
PHY data rates up to 150 Mbps
20 MHz bandwidth/channel, 40 MHz bandwidth/channel, upper/lower
20 MHz bandwidth in 40 MHz channel, and 20 MHz duplicate legacy
bandwidth in 40 MHz channel mode operation
Modulation and Coding Scheme MCS 0 ~ 7 and MCS 32 (duplicate
6 Mbps)
Dynamic frequency selection (radar detection)
– Enhanced radar detection for short and long pulse radar
– Enhanced AGC scheme for DFS channel
– Japan DFS requirement for W53 and W56
802.11k Radio resource measurement
802.11n optional features:
20 MHz and 40 MHz coexistence
Space-Time-Block-Coding (STBC) one spatial stream reception and
transmission
Short Guard Interval for both 20 MHz and 40 MHz operation (TX/RX)
RIFS on receive path
Beamformer function and hardware acceleration
Greenfield TX/RX
802.11mc locationing
Power save features
Integrated direct-conversion radio
20 MHz and 40 MHz channel bandwidth
Shared WLAN/Bluetooth receive input scheme for 2.4 GHz band
RX Path
On-chip gain selectable LNA with optimized noise figure and power
consumpttion
High dynamic range AGC function in receive mode
TX Path
Internal PA with power control
Optimized TX gain distribution for linearity and noise performance
Local Oscillator with fine channel step
WEP 64-bit and 128-bit encryption with hardware TKIP processing
(WPA)
AES-CCMP hardware implementation as part of 802.11i security
standard (WPA2)
Enhanced AES engine performance
Advanced encryption standard (AES)/Counter-Mode/CBC-MAC Protocol
(CCMP)
AES-Cipher-Based Message Authentication Code (CMAC) as part of the
802.11w security standard
WLAN Authentication and Privacy Infrastructure (WAPI)
Page 30
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Operation Modes
Parameter
Operation Mode
Specification
Standard Conformance
IEEE 802.11/IEEE 802.11b
IEEE 802.11a
IEEE 802.11g
IEEE 802.11n
Modulation
Physical Layer Data Rates
Supported Data Rates
IEEE 802.11a
OFDM
IEEE 802.11b
DSSS/CCK
IEEE 802.11g
OFDM
IEEE 802.11n
OFDM @ MCS0~7 and MCS32 (duplicate
6 Mbps)
IEEE 802.11
1, 2 Mbps @ DSSS
IEEE 802.11b
5.5, 11 Mbps @ DSSS/CCK
IEEE 802.11g
6, 9, 12, 18, 24, 36, 48, 54 Mbps
IEEE 802.11a
6, 9, 12, 18, 24, 36, 48, 54 Mbps
IEEE
802.11n
MCS0~7
HT20
HT40
LGI
6.5, 13, 19.5, 26, 39, 52, 58.5, 65 Mbps
SGI
7.2, 14.4, 21.7, 28.9, 43.3, 57.8, 65,
72.2 Mbps
LGI
13.5, 27, 40.5, 54, 81, 108, 121.5,
135 Mbps
SGI
15, 30, 45, 60, 90, 120, 135, 150 Mbps
Supported Bandwidth
IEEE 802.11n
20, 40 MHz (BW)
Supported Channel Mode
Operation
IEEE 802.11n
20 MHz BW/channel, 40 MHz BW/channel,
upper/lower 20 MHz BW @ 40 MHz
channel, 20 MHz duplicate legacy BW
@ 40 MHz channel
Supported Guard Interval
IEEE 802.11n
400 ns (SGI), 800 ns (LGI)
Product Specification Rev. 1.2
Page 31
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Channels and Frequencies (without Regulatory Restrictions)
2.4 GHz IEEE 802.11b/g/n
20 MHz Channels
Channel
40 MHz Channels
Frequency
Unit
Channel
Frequency
Unit
1
2 412
MHz
1-5
2 422
MHz
2
2 417
MHz
2-6
2 427
MHz
3
2 422
MHz
3-7
2 432
MHz
4
2 427
MHz
4-8
2 437
MHz
5
2 432
MHz
5-9
2 442
MHz
6
2 437
MHz
6-10
2 447
MHz
7
2 442
MHz
7-11
2 452
MHz
8
2 447
MHz
9
2 452
MHz
10
2 457
MHz
11
2 462
MHz
12
2 467
MHz
13
2 472
MHz
5 GHz IEEE 802.11a/n
20 MHz Channels
Channel
40 MHz Channels
Frequency
Unit
Channel
Frequency
Unit
36
5 180
MHz
36-40
5 190
MHz
40
5 200
MHz
44-48
5 230
MHz
44
5 220
MHz
52-56
5 270
MHz
48
5 240
MHz
60-64
5 310
MHz
52
5 260
MHz
56
5 280
MHz
60
5 300
MHz
64
5 320
MHz
100
5 500
MHz
100-104
5 510
MHz
104
5 520
MHz
108-112
5 550
MHz
108
5 540
MHz
116-120
5 590
MHz
112
5 560
MHz
124-128
5 630
MHz
116
5 580
MHz
132-136
5 670
MHz
120
5 600
MHz
124
5 620
MHz
128
5 640
MHz
132
5 660
MHz
136
5 680
MHz
140
5 700
MHz
Product Specification Rev. 1.2
Page 32
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
5 GHz IEEE 802.11a/n
20 MHz Channels
Channel
40 MHz Channels
Frequency
Unit
Channel
Frequency
Unit
149
5 745
MHz
149-153
5 755
MHz
153
5 765
MHz
157-161
5 795
MHz
157
5 785
MHz
161
5 805
MHz
165
5 825
MHz
5 GHz IEEE 802.11a/n (India and additional UNII Channels)
20 MHz Channels
Channel
40 MHz Channels
Frequency
Unit
Channel
Frequency
Unit
144
5 720
MHz
68-72
5 350
MHz
1696
5 845
MHz
76-80
5 390
MHz
173
5 865
MHz
84-88
5 430
MHz
177
5 885
MHz
92-96
5 470
MHz
181
5 905
MHz
140-144
5 710
MHz
165-169
5 835
MHz
7
5 855
MHz
173-177
5 875
MHz
169-173
6
India channels that can be used in other countries as well
7
India use only
Product Specification Rev. 1.2
Page 33
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Channel Tables based on Regulatory Domain/Country
MCS0 – MCS2
MCS3 – MCS4
MCS5 – MCS7
0 = disable
1 = enable
Device Mode
Unit
DFS
Passive Scan
Master
Client
MHz
15
15
15
14
14
14
13
-
-
-
dBm
0
0
Y
Y
2
2 417
MHz
16
16
16
15
15
15
14
-
-
-
dBm
0
0
Y
Y
Y = Yes/N = No
MCS5 – MCS7
40M
MCS3 – MCS4
11n
MCS0 – MCS2
20M
48M - 54M
TX Power
(maximum)
2 412
US, EU,
CA, MR
US, CA,
MR
EU
8
Channel 40M
Channel 20M
Model Variant
8
11n
24M - 36M 11g
Unit
1
Data Rates
6M - 18M
Frequenz
802.11 Operation Mode
1M - 11M 11b
2.4 GHz IEEE 802.11b/g/n
3
1-5
2 422
MHz
16
16
16
15
15
15
14
13
13
12
dBm
0
0
Y
Y
4
2-6
2 427
MHz
16
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5
3-7
2 432
MHz
16
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
6
4-8
2 437
MHz
16
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
7
5-9
2 442
MHz
16
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
8
6-10
2 447
MHz
16
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
9
7-11
2 452
MHz
16
16
16
15
15
15
14
13
13
12
dBm
0
0
Y
Y
10
-
2 457
MHz
16
16
16
15
15
15
14
-
-
-
dBm
0
0
Y
Y
11
-
2 462
MHz
15
15
15
14
14
14
13
-
-
-
dBm
0
0
Y
Y
12
-
2 467
MHz
-
-
-
-
-
-
-
-
-
-
dBm
0
0
N
N
13
-
2 472
MHz
-
-
-
-
-
-
-
-
-
-
dBm
0
0
N
N
10
8-12
2 457
MHz
16
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
11
9-13
2 462
MHz
16
16
16
15
15
15
14
13
13
12
dBm
0
0
Y
Y
12
-
2 467
MHz
16
16
16
15
15
15
14
-
-
-
dBm
0
0
Y
Y
13
-
2 472
MHz
15
15
15
14
14
14
13
-
-
-
dBm
0
0
Y
Y
The country related module variants are using a channel table with TX Power, DFS, and Passive Scan settings, which is prestored and locked in the OTP memory of the module and cannot be changed by host driver API. Please find the model
variants restricted to a particular regulatory domain at the variant table of Ordering Information.
Product Specification Rev. 1.2
Page 34
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
40M
MCS5 – MCS7
MCS0 – MCS2
MCS3 – MCS4
MCS5 – MCS7
0 = disable
1 = enable
Device Mode
Y = Yes/N = No
Unit
DFS
Passive Scan
Master
Client
11n
20M
MCS3 – MCS4
36
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 200 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 220 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 240 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 260 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 280 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 300 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 320 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 260 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 280 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 300 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 320 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 500 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 520 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 540 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 560 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 500 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 520 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 540 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 560 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 580 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 600 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 620 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 640 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 580 MHz
16
16
15
15
15
14
-
-
-
dBm
1
1
Y
Y
5 600 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 620 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 640 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
TX Power
(maximum)
Unit
Frequenz
Channel 40M
Channel 20M
Model Variant
US, EU,
CA, MR
11n
MCS0 – MCS2
5 180 MHz
Data Rates
6M - 18M
48M - 54M
802.11 Operation Mode
24M - 36M 11a
5 GHz IEEE 802.11a/n
38
40
44
46
48
US, EU,
CA
52
54
56
60
62
64
MR
52
54
56
60
62
64
US, EU,
CA
100
102
104
108
110
112
MR
100
102
104
108
110
112
US, EU
116
118
120
124
126
128
CA
116
118
120
124
126
128
Product Specification Rev. 1.2
Page 35
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
40M
MCS5 – MCS7
MCS0 – MCS2
MCS3 – MCS4
MCS5 – MCS7
0 = disable
1 = enable
Device Mode
Y = Yes/N = No
Unit
DFS
Passive Scan
Master
Client
11n
20M
MCS3 – MCS4
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 600 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 620 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 640 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 660 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 680 MHz
16
16
15
15
15
14
14
14
13
dBm
1
1
Y
Y
5 700 MHz
16
16
15
15
15
14
-
-
-
dBm
1
1
Y
Y
5 660 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 680 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 700 MHz
-
-
-
-
-
-
-
-
-
dBm
-
-
N
N
5 745 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 765 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 785 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 805 MHz
16
16
15
15
15
14
14
14
13
dBm
0
0
Y
Y
5 825 MHz
16
16
15
15
15
14
-
-
-
dBm
0
0
Y
Y
5 745 MHz
10
10
9
10
10
9
9
9
8
dBm
0
0
Y
Y
5 765 MHz
10
10
9
10
10
9
9
9
8
dBm
0
0
Y
Y
5 785 MHz
10
10
9
10
10
9
9
9
8
dBm
0
0
Y
Y
5 805 MHz
10
10
9
10
10
9
9
9
8
dBm
0
0
Y
Y
5 825 MHz
10
10
9
10
10
9
-
-
-
dBm
0
0
Y
Y
TX Power
(maximum)
Unit
Frequenz
Channel 20M
116
Channel 40M
Model Variant
MR
11n
MCS0 – MCS2
5 580 MHz
Data Rates
6M - 18M
48M - 54M
802.11 Operation Mode
24M - 36M 11a
5 GHz IEEE 802.11a/n
118
120
124
126
128
US, CA,
EU
132
134
136
140
MR
-
132
134
136
140
US, CA
-
149
151
153
157
159
161
165
EU, MR
-
149
151
153
157
159
161
165
-
Product Specification Rev. 1.2
Page 36
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
2.9
Bluetooth
Type
General
Bluetooth Classic
(BR/EDR)
Features
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Product Specification Rev. 1.2
Supports Bluetooth 5.0
Shared Tx/Rx path for Bluetooth
Digital Audio Interface including PCM interface for voice application
Bluetooth and WLAN coexistence
WLAN/Bluetooth Coexistence (BCA) protocol support
Bluetooth Classic with Bluetooth Class 1 support
Baseband and radio Basic Rate (BR) and Enhanced Data Rate (EDR)
packet types with 1 Mbps (GFSK), 2 Mbps (π/4-DQPSK) and 3 Mbps
(8DPSK)
Fully functional Bluetooth baseband with:
– Adaptive Frequency Hopping (AFH)
– Forward error correction
– Header error control
– Access code correlation
– CRC
– Encryption bit stream generation
– Whitening
Adaptive Frequency Hopping (AFH) including Packet Loss Rate (PLR)
Interlaced scan for faster connection setup
Simultaneous active ACL connection support
Automatic ACL packet type selection
Full master slave piconet support
Scatternet support
Standard UART and SDIO HCI transport layer
SCO/eSCO links with hardware accelerated audio signal pocessing and
hardware supported PPEC algorithm for speech quality improvement
All standard SCO/eSCO voice coding
All standard pairing, authentication, link key, and encryption operations
Standard Bluetooth power saving mechanism (i.e. hold, sniff modes, and
sniff-sub rating)
Enhanced Power Control (EPC)
Channel Quality Driven (CQD) data rate
Wideband Speech (WBS) support (1 WBS link)
Encryption (AES) support
LTE/MWS coexistence
Page 37
PAN9026 Wi-Fi/Bluetooth Module
2 Overview
Type
Bluetooth Low Energy (LE)
Features
•
•
•
•
•
•
•
•
•
•
Product Specification Rev. 1.2
Broadcaster, Observer, Central, and Peripheral roles
Supports link layer topology to be master and slave (connects up to
16 links)
Shared RF with BR/EDR
Encryption AES support
Hardware support for intelligent Adaptive Frequency Hopping (AFH)
LE Privacy 1.2
LE Secure Connection
LE Data Length Extension
LE Advertising Length Extension
Direction Finding, Connection-oriented Angle of Arrival (AoA)
Page 38
PAN9026 Wi-Fi/Bluetooth Module
3 Detailed Description
3 Detailed Description
3.1
Dimensions
All dimensions are in millimeters.
,5 0
10
2,55
17
No.
Item
Dimension
Tolerance
Remark
1 Width
10.00
± 0.35
2 Length
17.50
± 0.35
3 Height
2.55
Product Specification Rev. 1.2
± 0.20 with case
Page 39
PAN9026 Wi-Fi/Bluetooth Module
3 Detailed Description
3.2
Footprint
The outer dimensions have a tolerance of 0.35 mm.
Top View
G1
G2
G3
1.00 mm
9,20 mm
7,80 mm
6,80 mm
6,40 mm
5,00 mm
3,60 mm
3,20 mm
2,20 mm
0,80 mm
8,80 mm
6,00 mm
2,20 mm
2,20 mm
G4
G5
G6
G7
G8
G9
F5
F6
F7
F8
F9
F1
F2
F3
F4
E1
E2
E3
E4
D2
D3
D4
C2
C3
C4
B2
B3
B4
B5
B6
B7
B8
B9
A4
A5
A6
A7
A8
A9
B1
EP2
D9
Ground plane
keep out area
C9
0,80 mm
A1
0,80 mm
2,20 mm
3,60 mm
5,00 mm
6,40 mm
7,80 mm
9,20 mm
10,60 mm
12,00 mm
12,00 mm
A2
A3
8.00 mm
EP1
4,80 mm
1,40 mm
1.00 mm
C1
E9
Chip
Antenna
D1
0,80 mm
10,00 mm
0,80 mm
17,50 mm
Product Specification Rev. 1.2
Page 40
PAN9026 Wi-Fi/Bluetooth Module
3 Detailed Description
3.3
Packaging
The product is a mass production status product and will be delivered in the package described
below.
3.3.1
Tape Dimensions
T
0.30± 0.03
P2
2.0± 0.15(I)
Do
+ 0.1
1.5 0.0
Po
4.0± 0.15(II)
E1
1.75± 0.1
Y
X
W
Bo
So
F(III)
D1
2.0MIN
X
Y
SECTION Y-Y
A
P1
0.20 ± 0.05
Ko
DETAIL A
Ao
Bo
Ko
F
P1
SO
W
3.3.2
Ao
R0.75
SECTION X-X
10.55 +/- 0.15
18.05 +/- 0.15
3.00 +/- 0.15
14.20 +/- 0.15
20.00 +/- 0.15
28.40 +/- 0.15
32.00 +/- 0.3
Measured from centreline of sprocket hole
to centreline of pocket.
Cumulative tolerance of 10 sprocket
holes is ± 0.20 .
(III)
Measured from centreline of sprocket
hole to centreline of pocket.
(IV)
Other material available.
ALL DIMENSIONS IN MILLIMETRES UNLESS OTHERWISE STATED.
(I)
(II)
Packing in Tape
Direction of unreeling (for customer)
trailer (empty)
1 x circumference /
hub
(min 160mm)
component
packed area
standard
1500pcs
leader (empty)
minimum 10 pitch
Top cover tape more
than 1 x
circumference plus
100mm to avoid
fixing of tape end on
sealed modules.
Empty spaces in the component packed area shall be less than two per reel and those spaces
100730-PAN1720.vsd
shall not be consecutive.
The top cover tape shall not be found on reel holes and it shall not stick out from the reel.
Product Specification Rev. 1.2
Page 41
PAN9026 Wi-Fi/Bluetooth Module
3 Detailed Description
3.3.3
Component Direction
3.3.4
Reel Dimension
Product Specification Rev. 1.2
Page 42
PAN9026 Wi-Fi/Bluetooth Module
3 Detailed Description
3.3.5
Package Label
Example
3.3.6
(1T)
Lot code
(1P)
Customer order number, if applicable
(2P)
Order number
(9D)
Date code
(Q)
Quantity
(HW/SW)
Hardware/software version
Total Package
moisture-sensitive print
(already exist on barrier bag)
barcode
label
barrier bag
sealed
desiccant 1) 2)
moisture indicator
barcode
label
1) quantity of desiccant according
to calculation
2) optional: desiccant placed into
the corner of the barrier bag
inner carton box
size 340 x 340 x 41 mm³
Product Specification Rev. 1.2
Page 43
PAN9026 Wi-Fi/Bluetooth Module
3 Detailed Description
3.4
Case Marking
Example for PAN9026 (top view)
Product Specification Rev. 1.2
1
Brand name
2
Hardware/Software version
3
Engineering Sample (optional)
4
Model Name/ENW number
5
Lot code
6
Serial number
7
WLAN MAC address
8
BD address
9
Certification grant ID
10
Marking for Pin 1
11
2D barcode, for internal usage only
12
Bluetooth SIG logo
Page 44
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4 Specification
All specifications are over temperature and process, unless indicated
otherwise.
4.1
Default Test Conditions
Temperature:
Humidity:
Supply Voltage:
Product Specification Rev. 1.2
25 °C ± 10 °C
40 % to 85 % RH
VDD2V2 = 2.2 V
VDD1V8 = 1.8 V
VIORF = 3.3 V
VIOSD = 3.3 V
VIO = 1.8 V
Page 45
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.2
Absolute Maximum Ratings
The maximum ratings may not be exceeded under any circumstances, not
even momentarily or individually, as permanent damage to the module may
result.
Symbol
Parameter
TSTOR
Storage
Temperature
VESD
ESD
Robustness
Condition
Min.
Typ.
Max.
-40
All pads, according to human
body model (HBM), JEDEC
STD 22, method A114
According to charged device
model (CDM), JEDEC STD 22,
method C101
PRF
RF Input
Level
VDD1V8
Maximum
Voltage
85
°C
1 000
V
500
V
20
dBm
1.8
1.98
V
2.2
2.3
V
1.8
2.2
V
3.3
4
V
1.8
2.2
V
3.3
4
V
VIORF
3.3
4
V
VRF_SW1/2
3.3
4
V
VDD2V2
VIOSD
VIO
Product Specification Rev. 1.2
Maximum power supply voltage
from any pin with respect to
VSS (GND)
Units
Page 46
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3
Recommended Operating Conditions
The maximum ratings may not be exceeded under any circumstances, not
even momentarily or individually, as permanent damage to the module may
result.
Symbol
Parameter
Condition
Min.
Typ.
TA
Ambient
Operating
Temperature
Range
Extended grade
VDD1V8
1V8 Supply
9
Voltage
VDD voltage for Baseband and
CPU on pins A4, A5
1.71
VDD2V2
2V2 Supply
9
Voltage
VDD voltage for VGA on pins
A6, B5, B6
VIOSD
Digital I/O
VIOSD
Supply
10
Voltage
Units
85
°C
1.80
1.89
V
2.09
2.20
2.26
V
Pin G3 with 1.8 V operation
SDIO Pins Function
1.62
1.80
1.98
V
Pin G3 with 3.3 V operation
SDIO Pins Function
2.97
3.30
3.47
V
Digital I/O VIO Pin G4 with 1.8 V operation
Supply
Pin G4 with 3.3 V operation
Voltage
11
Pin B4 connect to GND
1.62
1.80
1.98
V
2.97
3.30
3.47
V
VIORF
Digital I/O
Pin G7 with 3.3 V operation
VIORF Supply
9
Voltage
2.97
3.30
3.47
V
VRF_SW1/2
VRF_SW1/2
Switch
9
Voltage
2.97
3.30
3.60
V
VIO
9
Pin A7, B7 with 3.3 V logical
level switch operation
RF-Switch Pins Function
-30
Max.
The power consumption should not exceed 15 Watt
10
1.8 V or 3.3 V supply voltage possible
11
Connect the 32KHZ_EN pin via a 100 resistor to ground to disable the internal 32.768 kHz crystal oscillator. The low
power modes will then use the SoC reference clock, which has lower accuracy.
Product Specification Rev. 1.2
Page 47
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.1
Digital Pin Characteristics
VIO with 1.8 V Operations12
Symbol
Parameter
Condition
Min.
Typ.
Max.
Units
VIH
High Level
Input Voltage
1.8 V operation (VIO = 1.8 V)
0.7 VIO
VIO +0.4
V
VIL
Low Level Input 1.8 V operation (VIO = 1.8 V)
Voltage
-0.4
0.3 VIO
V
VHYS
Input Hysteresis
100
VOH
High Level
Ouput Voltage
1.8 V operation (VIO = 1.8 V)
VHO
Low Level
Output Voltage
1.8 V operation (VIO = 1.8 V)
mV
VIO -0.4
V
0.4
V
VIO with 3.3 V Operations12
Symbol
Parameter
Condition
Min.
Typ.
Max.
Units
VIH
High Level
Input Voltage
3.3 V operation (VIO = 3.3 V)
0.7 VIO
VIO +0.4
V
VIL
Low Level Input 3.3 V operation (VIO = 3.3 V)
Voltage
-0.4
0.3 VIO
V
VHYS
Input Hysteresis
100
VOH
High Level
Ouput Voltage
3.3 V operation (VIO = 3.3 V)
VHO
Low Level
Output Voltage
3.3 V operation (VIO = 3.3 V)
mV
VIO -0.4
V
0.4
V
VIOSD 1.8 V Operation for SDIO I/F12
Symbol
Parameter
Condition
VIH
High Level
Input Voltage
1.8 V operation (VIOSD = 1.8 V)
Min.
Typ.
0.7 VIOSD
Max.
Units
VIOSD
V
+0.4
VIL
Low Level Input 1.8 V operation (VIOSD = 1.8 V)
Voltage
-0.4
VHYS
Input Hysteresis
100
mV
VOH
High Level
Ouput Voltage
1.8 V operation (VIOSD = 1.8 V)
VIOSD
V
Low Level
Output Voltage
1.8 V operation (VIOSD = 1.8 V)
VHO
12
0.3 VIOSD
V
-0.4
0.4
V
The capacitive load should not be larger than 50 pF for all I/Os when using the default driver strength settings. Large
capacitance loads generally increase the overall current consumption.
Product Specification Rev. 1.2
Page 48
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
VIOSD 3.3 V Operation for SDIO I/F12
Symbol
Parameter
Condition
Min.
Typ.
VIH
High Level
Input Voltage
3.3 V operation (VIOSD = 3.3 V)
0.7 VIO_SD
Max.
Units
VIO_SD
V
+0.4
VIL
Low Level Input 3.3 V operation (VIOSD = 3.3 V)
Voltage
-0.4
0.3 VIO_SD
V
VHYS
Input Hysteresis
100
mV
VOH
High Level
Ouput Voltage
3.3 V operation (VIOSD = 3.3 V)
VIOSD
V
VHO
Low Level
Output Voltage
3.3 V operation (VIOSD = 3.3 V)
-0.4
0.4
V
For SDIO 3.0 standard modes SDR12, SDR25, SDR50, and DDR50, a supply
voltage of VIOSD = 1.8 V should be used.
4.3.2
Current Consumption
The current consumption depends on the user scenario, the setup and timing
of the power modes. Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V,
VIOSD = 3.3 V, VIO = 1.8 V, and Tamb = 25 °C, if nothing else stated.
General Current Consumption
Symbol
Parameter
Condition
IVDD1V8 @ PDn
Power Down
Grounding of PDn pin
Min.
Typ.
IVDD2V2 @ PDn
IVDD1V8 @ DeepSleep
IVDD2V2 @ DeepSleep
IVDD1V8 @ Firmware Init
IVDD2V2 @ Firmware Init
WLAN/
Bluetooth Deep
Sleep
Low-power state used in sleep state
Firmware
Initialization
Device Initialization
Max.
Units
150
µA
5
µA
600
µA
5
µA
400
mA
950
mA
WLAN Current Consumption
Symbol
Parameter
Condition
IVDD1V8 @ TX
Active
Transmit13
PTX = +15 dBm for 5 GHz band
802.11a @ 54 Mbps
230
mA
PTX = +14 dBm for 5 GHz band
802.11n 20M @ MCS7
240
mA
13
Min.
Typ.
Max.
Units
Peak values for specified output power level and data rate with UDP traffic between the AP and Device (STA).
Product Specification Rev. 1.2
Page 49
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Symbol
IVDD2V2 @ TX
Parameter
Active
Transmit13
Product Specification Rev. 1.2
Condition
Min.
Typ.
Max.
Units
PTX = +13 dBm for 5 GHz band
802.11n 40M @ MCS7
250
mA
PTX = +16 dBm for 2.4 GHz band
802.11b @ 11 Mbps
175
mA
PTX = +15 dBm for 2.4 GHz band
802.11g @ 54 Mbps
180
mA
PTX = +14 dBm for 2.4 GHz band
802.11n 20M @ MCS7
185
mA
PTX = +15 dBm for 5 GHz band
802.11a @ 54 Mbps
180
mA
PTX = +14 dBm for 5 GHz band
802.11n 20M @ MCS7
170
mA
PTX = +13 dBm for 5 GHz band
802.11n 40M @ MCS7
160
mA
PTX = +16 dBm for 2.4 GHz band
802.11b @ 11 Mbps
240
mA
PTX = +15 dBm for 2.4 GHz band
802.11g @ 54 Mbps
190
mA
PTX = +14 dBm for 2.4 GHz band
802.11n 20M @ MCS7
170
mA
Page 50
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Symbol
Parameter
Condition
IVDD1V8 @ RX
Active
Receive14
5 GHz band 802.11a @ 54 Mbps
85
mA
5 GHz band 802.11n 20M @ MCS7
95
mA
5 GHz band 802.11n 40M @ MCS7
110
mA
2.4 GHz band 802.11b @ 11 Mbps
65
mA
2.4 GHz band 802.11g @ 54 Mbps
70
mA
2.4 GHz band 802.11n 20M
@ MCS7
75
mA
Active
Receive14
5 GHz band 802.11a/n
20
µA
2.4 GHz band 802.11b/g/n
20
µA
IEEE Power
Save15
DTIM = 1 with beacon interval
2
mA
20
µA
IVDD2V2 @ RX
IVDD1V8 @ IEEE-PS
IVDD2V2 @ IEEE-PS
Min.
Typ.
16
100 ms (Average )
Max.
Units
Bluetooth Current Consumption
Symbol
Parameter
Condition
IVDD1V8 @ TX
BT SCO HV3
Peak, PTX = +4 dBm
55
mA
BT ACL DH1
Average, PTX = 0 dBm
25
mA
BT ACL 3-DH5
Average, PTX = 0 dBm
35
mA
LE
PTX = 0 dBm
45
mA
BT SCO HV3
PTX = +4 dBm
15
µA
BT ACL DH1
PTX = 0 dBm
15
µA
BT ACL 3-DH5
PTX = 0 dBm
15
µA
IVDD2V2 @ TX
Min.
Typ.
Max.
Units
LE
PTX = 0 dBm
15
µA
IVDD1V8 @ RX
LE
Peak
30
mA
IVDD2V2 @ RX
LE
5
µA
IVDD1V8 @ Page Scan
BT Page Scan
2.4
mA
5
µA
3.8
mA
5
µA
1.5
mA
5
µA
1.5
mA
5
µA
Peak
IVDD2V2 @ Page Scan
IVDD1V8 @ PI Scan
IVDD2V2 @ PI Scan
IVDD1V8 @ LE Advertise
IVDD2V2 @ LE Advertise
IVDD1V8 @ LE Scan
IVDD2V2 @ LE Scan
BT Page and
Inquiry Scan
Peak
LE Advertise in
1.28s Interval
Peak
LE Scan with
Interval 1.28 s
Peak
14
Peak values for specified data rate with UDP traffic between the Device (Client) and AP (Server). The WLAN/Bluetooth
combo Firmware is downloaded and Bluetooth is in Deep Sleep.
15
In IEEE Power Save the device automatically wakes up on beacons. If it is a DTIM value of 1 along with a beacon interval of
100 ms, the device wakes up every 100 ms.
16
The average current is averaged over one cycle which includes sleep time and wake up time.
Product Specification Rev. 1.2
Page 51
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
RF Control Current Consumption
4.3.3
Symbol
Parameter
Condition
Min.
Typ.
Max.
Units
IVIORF
RF FE Control
Controlled by Firmware
5
µA
IRF_SW1/2
RF Switch Pin
Controlled by VRF_SW1/2 (high level)
5
µA
Internal Operating Frequencies
Symbol
Parameter
fSYSCLK1
CPU1/System Refers to clock speed of SoC’s
/Encryption
CPU1
Clock Speed
160
MHz
fSYSCLK2
CPU2
Refers to clock speed of SoC’s
CPU2
64
MHz
fREFCLK1
Crystal
Fundamental
Frequency
Frequency tolerance < ±10 ppm
over operating temperature and
process
26
MHz
fSLEEPCLK
Sleep Clock
Frequency
Frequency tolerance < ±20 ppm
over operating temperature,
aging and process, CMOS input
clock signal type
32.768
kHz
Product Specification Rev. 1.2
Condition
Min.
Typ.
Max.
Units
Page 52
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.4
Power-up Sequence
Symbol
Parameter
VDD2V2
Voltage level of VIOSD
100
%
VDD1V8
Voltage level of VDD2V2
90
%
PDn
Voltage level of VDD2V2
90
%
Product Specification Rev. 1.2
Min.
Typ.
Max.
Units
Page 53
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.5
Host Interface
4.3.5.1
SDIO Interface
The SDIO Interface pins are powered from the VIOSD voltage supply with
either 3.3 V or 1.8 V. The SDIO electrical specifications are identical for the
1-bit and 4-bit SDIO modes.
For the DC specification please refer to 4.3.1 Digital Pin Characteristics.
SDIO Timing Data: Default and High-Speed Modes (VIOSD 3.3 V)17,18
Symbol
Parameter
Condition
fPP
Clock Frequency
Normal
0
25
MHz
High-speed
0
50
MHz
TWL
Clock Low Time
Min.
Normal
Max.
Units
10
ns
7
ns
10
ns
High-speed
7
ns
Normal
5
ns
High-speed
6
ns
Normal
5
ns
High-speed
2
ns
High-speed
TWH
Typ.
Normal
Clock High Time
TISU
Input Setup Time
TIH
Input Hold Time
TODLY
TOH
Output Delay Time
Normal
14
ns
CL 40 Pf (1 Card)
High-speed
14
ns
Output Hold Time
High-speed
2.5
17
For SDIO 2.0 running at 50 MHz clock frequency, a supply voltage VIOSD of 1.8 V is recommended.
18
For SDIO 2.0 running at 25 MHz clock frequency, either 1.8 V or 3.3 V can be used.
Product Specification Rev. 1.2
ns
Page 54
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
SDIO Protocol Timing Diagram: Default Speed Mode (VIOSD 3.3 V)
SDIO Protocol Timing Diagram: High-Speed Mode (VIOSD 3.3 V)
Product Specification Rev. 1.2
Page 55
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
SDIO Timing Data: SDR12, SDR25, SDR50 Modes (VIOSD 1.8 V)
Symbol
Parameter
Condition
fPP
Clock Frequency
SDR12/SDR25/
SDR50
25
TIS
Input Setup Time
SDR12/SDR25/
SDR50
3
ns
SDR12/SDR25/
SDR50
0.8
ns
10
TIH
Input Hold Time
TCLK
Clock Time
SDR12/SDR25/
SDR50
TCR , TCF
Rise Time, Fall Time
TCR , TCF < 2 ns (max.) at
100 MHz
CCARD = 10 pF
TODLY
Output Delay Time
CL 30 pF
TOH
Output Hold Time
CL = 15 pF
Min.
Typ.
Max.
Units
100
MHz
40
ns
SDR12/SDR25/
SDR50
0.2 *
TCLK
ns
SDR12/SDR25/
SDR50
7.5
ns
SDR12/SDR25/
SDR50
1.5
ns
SDIO Protocol Timing Diagram: SDR12, SDR25, SDR50 Modes (VIOSD 1.8 V)
SDIO Timing Data: DDR50 Mode (VIOSD 1.8 V)
Symbol
Parameter
Condition
Clock Time
50 MHz (max.) Between
Rising Edges
DDR50
Min.
Typ.
Max.
Units
Clock
TCLK
Product Specification Rev. 1.2
20
ns
Page 56
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Symbol
Parameter
Condition
TCR, TCF
Rise Time, Fall Time
TCR, TCF < 4.00 ns (max.)
at 50 MHz,
CCARD = 10 pF
DDR50
Clock Duty
Min.
Typ.
Max.
Units
0.2 *
TCLK
ns
55
%
DDR50
45
DDR50
6
ns
DDR50
0.8
ns
CMD Input (referenced to clock rising edge)
TIS
Input Setup Time
CCARD 10 pF (1 card)
TIH
Input Hold Time
CCARD 10 pF (1 card)
CMD Output (referenced to clock rising edge)
TODLY
Output Delay Time During
Data Transfer Mode
DDR50
13.7
ns
CL 30 pF (1 card)
TOHLD
Output Hold Time
DDR50
1.5
ns
DDR50
3
ns
DDR50
0.8
ns
CL ≥ 15 pF (1 card)
DAT[3:0] Input (referenced to clock rising and falling edge)
TIS2x
Input Setup Time
CCARD 10 pF (1 card)
TIH2x
Input Hold Time
CCARD 10 pF (1 card)
DAT[3:0] Output (referenced to clock rising and falling edge)
TODLY2x (max.) Output Delay Time During
Data Transfer Mode
DDR50
7
ns
CL 25 pF (1 card)
TODLY2x (min.)
Output Hold Time
DDR50
1.5
ns
CL ≥ 15 pF (1 card)
Product Specification Rev. 1.2
Page 57
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
SDIO CMD Timing Diagram: DDR50 Mode (VIOSD 1.8 V, 50 MHz)
SDIO DAT[3:0] Timing Diagram: DDR50 Mode19 (VIOSD 1.8 V, 50 MHz)
19
In DDR50 mode, DAT[3:0] lines are sampled on both edges of the clock (not applicable for CMD line).
Product Specification Rev. 1.2
Page 58
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.5.2
High-Speed UART Interface
The High-Speed UART Interface pins are powered from the VIO voltage
supply with 1.8 V.
For the DC specification please refer to 4.3.1 Digital Pin Characteristics.
The UART interface operation includes:
•
Support data input/output operations for peripheral devices connected through a
standard UART interface
•
•
•
•
•
•
4-wire data transfer (RXD, TXD, RTS, CTS)
Programmable baud rate (1 200 bps to 4 Mbps)
Data format (LSB first)
Data bit: 5 bit to 8 bit
Parity bit: 0 bit to 4 bit
Stop bit: 1 bit to 2 bit
Interface Signals
Pin No.
Signal Name
Specification
Name
F3
UART_SOUT
TXD
F4
UART_SIN
RXD
F5
UART_RTS
RTS
G5
UART_CTS
CTS
Product Specification Rev. 1.2
Type
Description
Transmit data output
Host Controller
Interface (HCI)
Receive data input
Request to send (active low)
Clear to send (active low)
Page 59
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Interface Transport Settings
Item
Range
Default
Comment
Baudrate
1 200 ~ 4 000 000
Data Bits
5 ~ 8
8 LSB first
Parity Bits
0 ~ 4
0
1/1.5/2
1
Stop Bit
3 000 000 Baud
Supported Baud Rates
Baud
1 200
2 400
4 800
230 400
460 800
500 000
9 600
19 200
38 400
57 600
76 800
115 200
921 600 1 000 000 1 382 400 1 500 000 1 843 200 2 000 000
2 100 000 2 764 800 3 000 000 3 250 000 3 692 300 4 000 000
UART Timing Diagram
Product Specification Rev. 1.2
Page 60
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.6
Peripheral Interface
The Peripheral Interface pins are powered from the VIO voltage supply with
1.8 V.
For the DC specification please refer to 4.3.1 Digital Pin Characteristics.
4.3.6.1
GPIO Interface
The General-Purpose I/O (GPIO) interface is used to implement user-defined input and output
signals to and from the device, such as external interrupts and other user-defined I/Os.
Configurable GPIOs
Function
GPIO Pin Name
IO0
IO1
IO2
IO3
IO12
IO13
IO14
IO15
YES
YES
YES
YES
YES
YES
YES
YES
GPIO OUT YES
YES
YES
YES
YES
YES
YES
YES
IRQ IN
YES
YES
YES
YES
YES
YES
YES
GPIO IN
YES
LED Mode
Symbol
Parameter
Condition
IOH
Switching Current High
Tristate on pin Tristate when driving high
(requires
pull-up)
IOL
Switching Current Low
Product Specification Rev. 1.2
@ 0.4 V
Typ.
Units
mA
10
mA
Page 61
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.7
4.3.7.1
Audio Interface
PCM Interface
Interface Signals
Pin No.
Signal Name
Specification
Name
Type
Description
A1 PCM_DOUT
DOUT
Output
PCM data
B1 PCM_CLK
CLK
Input/Output
PCM clock signal, output if PCM
master, input if PCM slave
B1 PCM_MCLK
MCLK
Output
PCM clock signal (optional),
optional clock used for some codecs,
derived from PCM_CLK
B2 PCM_DIN
DIN
Input
PCM data
B3 PCM_SYNC
SYNC
Input/Output
PCM Sync pulse signal, output if PCM
master, input if PCM slave
Modes of Operation
The PCM Interface supports two modes of operation:
•
•
PCM master
PCM slave
When in PCM master mode, the interface generates a 2 MHz or a 2.048 MHz signal PCM_CLK
and a 8 kHz signal PCM_SYNC signal. An alternative PCM master mode is available that uses
an externally generated signal PCM_CLK, but still generates the 8 kHz signal PCM_SYNC. The
external signal PCM_CLK must have a frequency that is an integer multiple of 8 kHz. Supported
frequencies are in the 512 kHz to 4 MHz range.
When in PCM slave mode, the interface has both signal PCM_CLK and signal PCM_SYNC as
inputs, thereby letting another unit on the PCM bus generate the signals.
The PCM interface consists of up to four PCM slots (time-devided) preceded by a PCM sync
signal. Each PCM slot can be either 8 bits or 16 bits wide. The slots can be separated in time,
but they are not required to follow immediately after another. The timing is relative to signal
PCM_SYNC.
Product Specification Rev. 1.2
Page 62
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
PCM Timing Data: Master Mode
Symbol
Min.
Typ.
FBCLK
Max.
Units
2/2.048
Duty CycleBCLK
0.4
TBCLK rise/fall
0.5
MHz
0.6
3
TDO
ns
15
ns
TDISU
20
ns
TDIHO
15
ns
TBF
15
ns
PCM Timing Diagram: Master Mode
TBCLK
CLK
TTDO
DOUT
TDISU
TDIHO
DIN
TBF
SYNC
Product Specification Rev. 1.2
Page 63
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
PCM Timing Data: Slave Mode
Symbol
Min.
Typ.
FBCLK
Max.
Units
2/2.048
Duty CycleBCLK
0.4
TBCLK rise/fall
0.5
MHz
0.6
3
TDO
ns
30
ns
TDISU
15
ns
TDIHO
10
ns
TBFSU
15
ns
TBFHO
10
ns
PCM Timing Diagram: Slave Mode
TBCLK
CLK
TTDO
DOUT
TDISU
TDIHO
TBFSU
TBFHO
DIN
SYNC
Product Specification Rev. 1.2
Page 64
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.3.8
Coexistence Interface
The Coexistence Interface pins are powered from the VIO voltage supply with
1.8 V.
For the DC specification please refer to 4.3.1 Digital Pin Characteristics.
4.4
4.4.1
RF Electrical Characteristics
WLAN Radio Specification
Receive Mode
Parameter
Condition
Min.
Typ.
Max.
Units
RF Frequency Range
2.4 GHz: IEEE 802.11b/g/n
2 400
2 483.5
MHz
5 GHz: IEEE 802.11a/n
4 900
5 925
MHz
Transmit Mode
4.4.2
4.4.2.1
Parameter
Condition
Min.
Typ.
Max.
Units
RF Frequency Range
2.4 GHz: IEEE 802.11b/g/n
2 400
2 483.5
MHz
5 GHz: IEEE 802.11a/n
4 900
5 925
MHz
WLAN RF Characteristics
RF Characteristics for IEEE 802.11b
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
Condition
RF Frequency Range
Carrier Frequency Tolerance
Transmit Output Power
Spectrum Mask
Max.
Units
2 400
2 483.5
MHz
-25
25
ppm
dBm
fC ± 11 MHz
-30
fC ± 22 MHz
-50
RF Carrier Suppression
Product Specification Rev. 1.2
Typ.
16
Power-on/Power-down Ramp
Error Vector Magnitude (EVM)
Min.
Peak
dBr
2
µs
-15
dB
35
%
Page 65
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Parameter
Condition
Minimum Receive Sensitivity
4.4.2.2
Min.
Typ.
1 Mbps (DSSS)
FER ≤ 8 %
-98
2 Mbps (DSSS)
FER ≤ 8 %
-93
5.5 Mbps (CCK)
FER ≤ 8 %
-91
11 Mbps (CCK)
FER ≤ 8 %
-89
Maximum Input Level
FER ≤ 8 %
Adjacent Channel Rejection
FER ≤ 8 %
Max.
Units
dBm
-80
dBm
dBm
-76
dBm
-10
dBm
35
dB
RF Characteristics for IEEE 802.11g
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
Condition
RF Frequency Range
Spectrum Mask
Typ.
2 400
Carrier Frequency Tolerance
Transmit Output Power
Min.
-25
25
ppm
+16
dBm
48 Mbps to 54 Mbps
+15
dBm
fC ± 11 MHz
-20
dBr
fC ± 20 MHz
-28
dBr
fC ± 30 MHz
-40
dBr
-15
dB
4
dB
BPSK, CR 1/2 (6 Mbps)
-5
dB
BPSK, CR 3/4 (9 Mbps)
-8
dB
QPSK, CR 1/2 (12 Mbps)
-10
dB
QPSK, CR 3/4 (18 Mbps)
-13
dB
16-QAM, CR 1/2 (24 Mbps)
-16
dB
16-QAM, CR 3/4 (36 Mbps)
-19
dB
64-QAM, CR 2/3 (48 Mbps)
-22
dB
-4
64-QAM, CR 3/4 (54 Mbps)
Product Specification Rev. 1.2
MHz
6 Mbps to 36 Mbps
Transmitter Spectral Flatness
Minimum Receive Sensitivity
Units
2 483.5
Transmitter Center Frequency
Leakage
Constellation Error (EVM)
Max.
-25
dB
BPSK, CR 1/2 (6 Mbps)
PER ≤ 10 %
-91
-82
dBm
BPSK, CR 3/4 (9 Mbps)
PER ≤ 10 %
-90
-81
dBm
QPSK, CR 1/2 (12 Mbps)
PER ≤ 10 %
-89
-79
dBm
QPSK, CR 3/4 (18 Mbps)
PER ≤ 10 %
-87
-77
dBm
16-QAM, CR 1/2 (24 Mbps)
PER ≤ 10 %
-84
-74
dBm
16-QAM, CR 3/4 (36 Mbps)
PER ≤ 10 %
-81
-70
dBm
64-QAM, CR 2/3 (48 Mbps)
PER ≤ 10 %
-77
-66
dBm
Page 66
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Parameter
Condition
64-QAM, CR 3/4 (54 Mbps)
4.4.2.3
Typ.
PER ≤ 10 %
-76
PER ≤ 10 %
Maximum Input Level
Adjacent Channel Rejection
Min.
Max.
Units
-65
dBm
-20
dBm
BPSK, CR 1/2 (6 Mbps)
PER ≤ 10 %
16
dB
64-QAM, CR 3/4 (54 Mbps)
PER ≤ 10 %
-1
dB
RF Characteristics for IEEE 802.11n (BW 20 MHz, 2.4 GHz)
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
RF Frequency Range
Condition
2.4 GHz
Carrier Frequency Tolerance
Transmit Output Power
Spectrum Mask
Min.
Typ.
2 483.5
MHz
-25
25
ppm
MCS0 to MCS2
+15
dBm
MCS3 to MCS4
+15
dBm
MCS5 to MCS7
+14
dBm
fC ± 11 MHz
-20
dBr
fC ± 20 MHz
-28
dBr
fC ± 30 MHz
-45
dBr
-15
dB
4
dB
BPSK, CR 1/2 (MCS0)
-5
dB
QPSK, CR 1/2 (MCS1)
-10
dB
QPSK, CR 3/4 (MCS2)
-13
dB
16-QAM, CR 1/2 (MCS3)
-16
dB
16-QAM, CR 3/4 (MCS4)
-19
dB
64-QAM, CR 2/3 (MCS5)
-22
dB
64-QAM, CR 3/4 (MCS6)
-25
dB
Transmitter Spectral Flatness
-4
64-QAM, CR 5/6 (MCS7)
Minimum Receive Sensitivity20
20
Units
2 400
Transmitter Center Frequency
Leakage
Constellation Error (EVM)
Max.
-27
dB
6.5 Mbps (MCS0)
PER ≤ 10 %
-90
-82
dBm
13 Mbps (MCS1)
PER ≤ 10 %
-88
-79
dBm
19.5 Mbps (MCS2)
PER ≤ 10 %
-86
-77
dBm
26 Mbps (MCS3)
PER ≤ 10 %
-83
-74
dBm
39 Mbps (MCS4)
PER ≤ 10 %
-80
-70
dBm
The Minimum Sensitivity levels apply only to non-STBC modes, MCS 0~7, 800 ns LGI, and BCC.
Product Specification Rev. 1.2
Page 67
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Parameter
Condition
Typ.
Adjacent Channel Rejection
Units
PER ≤ 10 %
-76
-66
dBm
58.5 Mbps (MCS6)
PER ≤ 10 %
-74
-65
dBm
65 Mbps (MCS7)
PER ≤ 10 %
-73
-64
dBm
-20
dBm
PER ≤ 10 %
21
Max.
52 Mbps (MCS5)
Maximum Input Level
21
Min.
65 Mbps (MCS7)
PER ≤ 10 %
-2
dB
The Adjacent Channel Rejection levels apply only to non-STBC modes, MCS 0~7, 800 ns LGI, and BCC.
Product Specification Rev. 1.2
Page 68
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.4.2.4
RF Characteristics for IEEE 802.11n (BW 40 MHz, 2.4 GHz)
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
Condition
RF Frequency Range
2.4 GHz
Carrier Frequency Tolerance
Transmit Output Power
Spectrum Mask
Min.
Typ.
2 483.5
MHz
-25
+25
ppm
MCS0 to MCS2
+14
dBm
MCS3 to MCS4
+14
dBm
MCS5 to MCS7
+13
dBm
fC ± 21 MHz
-20
dBr
fC ± 40 MHz
-28
dBr
fC ± 60 MHz
-45
dBr
-20
dB
Transmitter Spectral Flatness
Minimum Receive Sensitivity
20
4
dB
BPSK, CR 1/2 (MCS0)
-4
-5
dB
QPSK, CR 1/2 (MCS1)
-10
dB
QPSK, CR 3/4 (MCS2)
-13
dB
16-QAM, CR 1/2 (MCS3)
-16
dB
16-QAM, CR 3/4 (MCS4)
-19
dB
64-QAM, CR 2/3 (MCS5)
-22
dB
64-QAM, CR 3/4 (MCS6)
-25
dB
64-QAM, CR 5/6 (MCS7)
-27
dB
13.5 Mbps (MCS0)
PER ≤ 10 %
-86
-79
dBm
27 Mbps (MCS1)
PER ≤ 10 %
-85
-76
dBm
40.5 Mbps (MCS2)
PER ≤ 10 %
-83
-74
dBm
54 Mbps (MCS3)
PER ≤ 10 %
-80
-71
dBm
81 Mbps (MCS4)
PER ≤ 10 %
-77
-67
dBm
108 Mbps (MCS5)
PER ≤ 10 %
-73
-63
dBm
121.5 Mbps (MCS6)
PER ≤ 10 %
-71
-62
dBm
135 Mbps (MCS7)
PER ≤ 10 %
-69
-61
dBm
-20
dBm
PER ≤ 10 %
Maximum Input Level
Adjacent Channel Rejection
21
Product Specification Rev. 1.2
Units
2 400
Transmitter Center Frequency
Leakage
Constellation Error (EVM)
Max.
135 Mbps (MCS7)
PER ≤ 10 %
-2
dB
Page 69
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.4.2.5
RF Characteristics for IEEE 802.11n (BW 20 MHz, 5 GHz)
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V,
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
Condition
RF Frequency Range
Spectrum Mask
Typ.
5 250
MHz
5 GHz U-NII-2A
5 250
5 350
MHz
5 GHz U-NII-2C
5 470
5 725
MHz
5 GHz U-NII-3
5 725
5 825
MHz
-20
20
ppm
MCS0 to MCS2
+15
dBm
MCS3 to MCS4
+15
dBm
MCS5 to MCS7
+14
dBm
fC ± 11 MHz
-20
dBr
fC ± 20 MHz
-28
dBr
fC ± 30 MHz
-40
dBr
-15
dB
4
dB
BPSK, CR 1/2 (MCS0)
-5
dB
QPSK, CR 1/2 (MCS1)
-10
dB
QPSK, CR 3/4 (MCS2)
-13
dB
16-QAM, CR 1/2 (MCS3)
-16
dB
16-QAM, CR 3/4 (MCS4)
-19
dB
64-QAM, CR 2/3 (MCS5)
-22
dB
64-QAM, CR 3/4 (MCS6)
-25
dB
64-QAM, CR 5/6 (MCS7)
-27
dB
Transmitter Spectral Flatness
Minimum Receive Sensitivity
20
-4
6.5 Mbps (MCS0)
PER ≤ 10 %
-89
-82
dBm
13 Mbps (MCS1)
PER ≤ 10 %
-88
-79
dBm
19.5 Mbps (MCS2)
PER ≤ 10 %
-85
-77
dBm
26 Mbps (MCS3)
PER ≤ 10 %
-82
-74
dBm
39 Mbps (MCS4)
PER ≤ 10 %
-79
-70
dBm
52 Mbps (MCS5)
PER ≤ 10 %
-74
-66
dBm
58.5 Mbps (MCS6)
PER ≤ 10 %
-73
-65
dBm
65 Mbps (MCS7)
PER ≤ 10 %
-71
-64
dBm
-30
dBm
PER ≤ 10 %
Maximum Input Level
Adjacent Channel Rejection
21
Product Specification Rev. 1.2
Units
5 150
Transmitter Center Frequency
Leakage
Constellation Error (EVM)
Max.
5 GHz U-NII-1
Carrier Frequency Tolerance
Transmit Output Power
Min.
65 Mbps (MCS7)
PER ≤ 10 %
-2
dB
Page 70
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.4.2.6
RF Characteristics for IEEE 802.11n (BW 40 MHz, 5 GHz)
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V,
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
Condition
RF Frequency Range
Spectrum Mask
Typ.
5 250
MHz
5 GHz U-NII-2A
5 250
5 350
MHz
5 GHz U-NII-2C
5 470
5 725
MHz
5 GHz U-NII-3
5 725
5 825
MHz
-20
20
ppm
MCS0 to MCS2
+14
dBm
MCS3 to MCS4
+14
dBm
MCS5 to MCS7
+13
dBm
fC ± 21 MHz
-20
dBr
fC ± 40 MHz
-28
dBr
fC ± 60 MHz
-40
dBr
-20
dB
4
dB
BPSK, CR 1/2 (MCS0)
-5
dB
QPSK, CR 1/2 (MCS1)
-10
dB
QPSK, CR 3/4 (MCS2)
-13
dB
16-QAM, CR 1/2 (MCS3)
-16
dB
16-QAM, CR 3/4 (MCS4)
-19
dB
64-QAM, CR 2/3 (MCS5)
-22
dB
64-QAM, CR 3/4 (MCS6)
-25
dB
64-QAM, CR 5/6 (MCS7)
-27
dB
Transmitter Spectral Flatness
Minimum Receive Sensitivity
20
-4
13.5 Mbps (MCS0)
PER ≤ 10 %
-86
-79
dBm
27 Mbps (MCS1)
PER ≤ 10 %
-85
-76
dBm
40.5 Mbps (MCS2)
PER ≤ 10 %
-82
-74
dBm
54 Mbps (MCS3)
PER ≤ 10 %
-79
-71
dBm
81 Mbps (MCS4)
PER ≤ 10 %
-76
-67
dBm
108 Mbps (MCS5)
PER ≤ 10 %
-72
-63
dBm
121.5 Mbps (MCS6)
PER ≤ 10 %
-70
-62
dBm
135 Mbps (MCS7)
PER ≤ 10 %
-69
-61
dBm
-30
dBm
PER ≤ 10 %
Maximum Input Level
Adjacent Channel Rejection
21
Product Specification Rev. 1.2
Units
5 150
Transmitter Center Frequency
Leakage
Constellation Error (EVM)
Max.
5 GHz U-NII-1
Carrier Frequency Tolerance
Transmit Output Power
Min.
135 Mbps (MCS7)
PER ≤ 10 %
-2
dB
Page 71
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.4.2.7
RF Characteristics for IEEE 802.11a
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V,
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
Parameter
RF Frequency Range
Condition
Spectrum Mask
Typ.
5 250
MHz
5 GHz U-NII-2A
5 250
5 350
MHz
5 GHz U-NII-2C
5 470
5 725
MHz
5 GHz U-NII-3
5 725
5 825
MHz
-20
20
ppm
6 Mbps to 36 Mbps
+16
dBm
48 Mbps to 54 Mbps
+15
dBm
fC ± 11 MHz
-20
dBr
fC ± 20 MHz
-28
dBr
fC ± 30 MHz
-40
dBr
-15
dB
4
dB
BPSK, CR 1/2 (6 Mbps)
-5
dB
BPSK, CR 3/4 (9 Mbps)
-8
dB
QPSK, CR 1/2 (12 Mbps)
-10
dB
QPSK, CR 3/4 (18 Mbps)
-13
dB
16-QAM, CR 1/2 (24 Mbps)
-16
dB
16-QAM, CR 3/4 (36 Mbps)
-19
dB
64-QAM, CR 2/3 (48 Mbps)
-22
dB
64-QAM, CR 3/4 (54 Mbps)
-25
dB
Transmitter Spectral Flatness
Minimum Receive Sensitivity
-4
BPSK, CR 1/2 (6 Mbps)
PER ≤ 10 %
-90
-82
dBm
BPSK, CR 3/4 (9 Mbps)
PER ≤ 10 %
-90
-81
dBm
QPSK, CR 1/2 (12 Mbps)
PER ≤ 10 %
-89
-79
dBm
QPSK, CR 3/4 (18 Mbps)
PER ≤ 10 %
-86
-77
dBm
16-QAM, CR 1/2 (24 Mbps)
PER ≤ 10 %
-84
-74
dBm
16-QAM, CR 3/4 (36 Mbps)
PER ≤ 10 %
-80
-70
dBm
64-QAM, CR 2/3 (48 Mbps)
PER ≤ 10 %
-76
-66
dBm
64-QAM, CR 3/4 (54 Mbps)
PER ≤ 10 %
-75
-65
dBm
-30
dBm
PER ≤ 10 %
Maximum Input Level
Adjacent Channel Rejection
Product Specification Rev. 1.2
Units
5 150
Transmitter Center Frequency
Leakage
Constellation Error (EVM)
Max.
5 GHz U-NII-1
Carrier Frequency Tolerance
Transmit Output Power
Min.
BPSK, CR 1/2 (6 Mbps)
PER ≤ 10 %
16
dB
64-QAM, CR 3/4 (54 Mbps)
PER ≤ 10 %
-1
dB
Page 72
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.4.3
Bluetooth RF Characteristics
Assume VDD2V2 = 2.2 V, VDD1V8 = 1.8 V, VIORF = 3.3 V, VIOSD = 3.3 V, VIO = 1.8 V,
and Tamb = 25 °C, if nothing else stated.
50 terminal load connected to the RF connector.
4.4.3.1
Receiver Section RF Characteristics
Parameter
Condition
Min.
RF Frequency Range
Interference Performance
(Basic Rate)
C/I Ratio
Typ.
2 400
GFSK
RSL = -67 dBm
BER ≤ 0.1 %
C/I Ratio
π/4-DQPSK
RSL = -67 dBm
BER ≤ 0.01 %
RSL = -67 dBm
BER ≤ 0.01 %
dB
C/I (1 MHz)
0
dB
C/I (2 MHz)
-30
dB
C/I (3 MHz)
-40
dB
C/I (Image)
-9
dB
-20
dB
13
dB
C/I (1 MHz)
0
dB
C/I (2 MHz)
-30
dB
C/I (3 MHz)
-40
dB
C/I (Image)
-7
dB
-20
dB
21
dB
C/I (1 MHz)
5
dB
C/I (2 MHz)
-25
dB
C/I (3 MHz)
-33
dB
C/I (Image)
0
dB
-13
dB
21
dB
C/I (1 MHz)
15
dB
C/I (2 MHz)
-17
dB
C/I (3 MHz)
-27
dB
C/I (Image)
-9
dB
-15
dB
C/I (Co-channel)
C/I (Co-channel)
C/I (Image ± 1 MHz)
Interference Performance
(Low Energy)
C/I Ratio
GFSK
RSL = -67 dBm
BER ≤ 0.1 %
1 Mbps
C/I (Co-channel)
C/I (Image ± 1 MHz)
Minimum Receive Sensitivity
Product Specification Rev. 1.2
MHz
11
C/I (Image ± 1 MHz)
8-DPSK
Units
2 483.5
C/I (Co-channel)
C/I (Image ± 1 MHz)
Interference Performance
(Enhanced Data Rate)
Max.
BR, DH1
BER ≤ 0.1 %
-94
-70
dBm
EDR, 2DH1
BER ≤ 0.01 %
-90
-70
dBm
LE, GFSK
BER ≤ 0.1 %
-90
-70
dBm
Page 73
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
Parameter
Condition
Out-of-band Blocking
(Basic Rate)
GFSK
Interfering Signal Power
Out-of-band Blocking
(Low Energy)
Min.
RSL = -67 dBm
BER ≤ 0.1 %
GFSK
Interfering Signal Power
RSL = -67 dBm
BER ≤ 0.1 %
RSSI Range
Resolution = 1 dB
Typ.
Max.
30 MHz: 2 000 MHz
-10
dBm
2 GHz: 2.399 GHz
-27
dBm
2.484 GHz: 3 GHz
-27
dBm
3 GHz: 12.75 GHz
-10
dBm
30 MHz: 2 000 MHz
-30
dBm
2.003 GHz: 2.399 GHz
-35
dBm
2.484 GHz: 2.997 GHz
-35
dBm
-30
dBm
0
dBm
3 GHz: 12.75 GHz
4.4.3.2
Units
-90
Transmitter Section RF Characteristics
Parameter
Condition
Min.
RF Frequency Range
Maximum Output Power
Gain Range
Spurious Emission (EDR)
(in-band)
Spurious Emission (LE)
(in-band)
Product Specification Rev. 1.2
Max.
2 400
2 483.5
Units
MHz
Basic Rate (BR)
+8
dBm
Enhanced Data Rate (EDR)
+6
dBm
Low Energy (LE)
+6
dBm
30
dB
0.5
dB
Gain control
Gain Resolution
Spurious Emission (BR)
(in-band)
Typ.
± 500 kHz
-20
dBc
± 2 MHz, |M-N| = 2
-20
dBm
± 3 MHz or greater, |M-N| ≥ 3
-40
dBm
± 1 MHz
-26
dBc
± 1.5 MHz
-20
dBm
± 2.5 MHz
-40
dBm
± 2 MHz, |M-N| = 2
-20
dBm
± 3 MHz or greater, |M-N| ≥ 3
-30
dBm
1 Mbps
Page 74
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.5
Reliability Tests
The measurement should be done after the test device has been exposed to room temperature
and humidity for one hour.
No.
Item
Limit
Condition
1
Vibration test
Electrical parameter should be in
specification
Freq.: 10 Hz~50 Hz; Amplitude: 1.5 mm;
20 min./cycle, 1 h each of XYZ axis
2
Shock test
See above
Dropped 3 times onto hard wood from a
height of 1 m
3
Heat cycle test
See above
-40 °C for 30 min. and 85 °C for 30 min.;
each temperature 300 cycles
4
Moisture test
See above
60 °C, 90 % RH, 300 h
5
Low temp. test
See above
-40 °C, 300 h
6
High temp. test
See above
85 °C, 300 h
Product Specification Rev. 1.2
Page 75
PAN9026 Wi-Fi/Bluetooth Module
4 Specification
4.6
Recommended Soldering Profile
•
•
•
•
Reflow permissible cycle: 2
•
Soldering profile assumes lead-free soldering
Opposite side reflow is prohibited due to module weight
More than 75 percent of the soldering area shall be coated by solder
The soldering profiles should be adhered to in order to prevent electrical
or mechanical damage
Product Specification Rev. 1.2
Page 76
PAN9026 Wi-Fi/Bluetooth Module
5 Cautions
5 Cautions
Failure to follow the guidelines set forth in this document may result in
degrading of the module functions and damage to the module.
5.1
Design Notes
Radio requires a RF ground plane on the rest of the
Printed Circuit Board (PCB) area. This can be located on any layer of the
PCB. For best performance, extend the RF ground plane the entire length of
your board. Connect all ground pins and do not notch the ground plane around
the module. The bottom of the module is grounded. So be careful of vias or
conductive traces located under the modules that are not soldered masked to
prevent shorting.
Keep metallic components, connectors, copper traces, internal layers, and
ground planes away from the antenna area in 3D space!
1. Follow the conditions written in this specification, especially the control signals of this
module.
2. The supply voltage should abide by the maximum ratings ( 4.2 Absolute Maximum
Ratings).
3. The supply voltage must be free of AC ripple voltage (for example from a battery or a low
noise regulator output). For noisy supply voltages, provide a decoupling circuit (for
example a ferrite in series connection and a bypass capacitor to ground of at least 47 µF
directly at the module).
4. This module should not be mechanically stressed when installed.
5. Keep this module away from heat. Heat is the major cause of decreasing the life time of
these modules.
6. Avoid assembly and use of the target equipment in conditions where the module
temperature may exceed the maximum tolerance.
7. Keep this module away from other high frequency circuits.
8. Refer to the recommended pattern when designing a board.
5.2
Installation Notes
1. Reflow soldering is possible twice based on the conditions set forth in 4.6
Recommended Soldering Profile. Set up the temperature at the soldering portion of this
module according to this reflow profile.
2. Carefully position the module so that the heat will not burn into printed circuit boards or
affect other components that are susceptible to heat.
3. Carefully locate the module, to avoid an increased temperature caused by heat
generated by neighboring components.
Product Specification Rev. 1.2
Page 77
PAN9026 Wi-Fi/Bluetooth Module
5 Cautions
4. If a vinyl-covered wire comes into contact with the module, the wire cover will melt and
generate toxic gas, damaging the insulation. Never allow contact between a vinyl cover
and these modules to occur.
5. This module should not be mechanically stressed or vibrated when reflowed.
6. To repair the board by hand soldering, follow the conditions set forth in this chapter.
7. Do not wash this product.
8. Pressing on parts of the metal cover or fastening objects to the metal will cause damage
to the module.
5.3
Usage Condition Notes
1. Take measures to protect the module against static electricity.
If pulses or transient loads (a large load, which is suddenly applied) are applied to the
modules, check and evaluate their operation before assembly of the final products.
2. Do not use dropped modules.
3. Do not touch, damage, or soil the pins.
4. Follow the recommended condition ratings about the power supply applied to this
module.
5. Electrode peeling strength: Do not apply a force of more than 4.9 N in any direction on
the soldered module.
6. Pressing on parts of the metal cover or fastening objects to the metal cover will cause
damage.
7. These modules are intended for general purpose and standard use in general electronic
equipment, such as home appliances, office equipment, information, and communication
equipment.
5.4
Storage Notes
1. The module should not be stressed mechanically during storage.
2. Do not store these modules in the following conditions or the performance
characteristics of the module, such as RF performance will be adversely affected:
–
Storage in salty air or in an environment with a high concentration of corrosive gas,
such as Cl2, H2S, NH3, SO2, or NOX,
–
Storage in direct sunlight,
–
Storage in an environment where the temperature may be outside the range of 5 °C to
35 °C, or where the humidity may be outside the 45 % to 85 % range,
–
Storage of the modules for more than one year after the date of delivery storage period:
Please check the adhesive strength of the embossed tape and soldering after 6 months
of storage.
3. Keep this module away from water, poisonous gas, and corrosive gas.
4. This module should not be stressed or shocked when transported.
Product Specification Rev. 1.2
Page 78
PAN9026 Wi-Fi/Bluetooth Module
5 Cautions
5. Follow the specification when stacking packed crates (max. 10).
5.5
Safety Cautions
These specifications are intended to preserve the quality assurance of products and individual
components.
Before use, check and evaluate the operation when mounted on your products. Abide by these
specifications without deviation when using the products. These products may short-circuit. If
electrical shocks, smoke, fire, and/or accidents involving human life are anticipated when a
short circuit occurs, provide the following failsafe functions as a minimum:
1. Ensure the safety of the whole system by installing a protection circuit and a protection
device.
2. Ensure the safety of the whole system by installing a redundant circuit or another system
to prevent a single fault causing an unsafe status.
5.6
Other Cautions
1. Do not use the module for other purposes than those listed in section 5.3 Usage
Condition Notes
2. Be sure to provide an appropriate fail-safe function on your product to prevent any
additional damage that may be caused by the abnormal function or the failure of the
module.
3. This module has been manufactured without any ozone chemical controlled under the
Montreal Protocol.
4. These modules are not intended for use under the special conditions shown below.
Before using these modules under such special conditions, carefully check their
performance and reliability under the said special conditions to determine whether or not
they can be used in such a manner:
–
In liquid, such as water, salt water, oil, alkali, or organic solvent, or in places where
liquid may splash,
–
In direct sunlight, outdoors, or in a dusty environment,
–
In an environment where condensation occurs,
–
In an environment with a high concentration of harmful gas (e.g. salty air, HCl, Cl2, SO2,
H2S, NH3, and NOX).
5. If an abnormal voltage is applied due to a problem occurring in other components or
circuits, replace these modules with new modules, because they may not be able to
provide normal performance even if their electronic characteristics and appearances
appear satisfactory.
Please refer to the Panasonic website for for further information 7.2.2
Product Information.
Product Specification Rev. 1.2
Page 79
PAN9026 Wi-Fi/Bluetooth Module
5 Cautions
5.7
5.7.1
Restricted Use
Life Support Policy
This Panasonic Industrial Devices Europe GmbH product is not designed for use in life support
appliances, devices, or systems where malfunction can reasonably be expected to result in a
significant personal injury to the user, or as a critical component in any life support device or
system whose failure to perform can be reasonably expected to cause the failure of the life
support device or system, or to affect its safety or effectiveness.
Panasonic customers using or selling these products for use in such applications do so at their
own risk and agree to fully indemnify Panasonic Industrial Devices Europe GmbH for any
damages resulting.
5.7.2
Restricted End Use
This Panasonic Industrial Devices Europe GmbH product is not designed for any restricted
activity that supports the development, production, handling usage, maintenance, storage,
inventory or proliferation of any weapons or military use.
Transfer, export, re-export, usage or reselling of this product to any destination, end-user or any
end-use prohibited by the European Union, United States or any other applicable law is strictly
prohibited.
Product Specification Rev. 1.2
Page 80
PAN9026 Wi-Fi/Bluetooth Module
6 Regulatory and Certification Information
6 Regulatory and Certification Information
6.1
6.1.1
Federal Communications Commission (FCC) for US
FCC Notice
The PAN9026, including the ceramic antenna (ENWF9201A1EF and
ENWF9208A1EF), and the antennas, which are listed in 6.1.5 Approved
Antenna List, complies with Part 15 of the FCC Rules.
The device meets the requirements for modular transmitter approval as detailed in FCC public
Notice DA00-1407. The transmitter operation is subject to the following two conditions:
The device meets the requirements for modular transmitter approval as detailed in FCC public
Notice DA00-1407. The transmitter operation is subject to the following two conditions:
1. This device may not cause harmful interference, and
2. This device must accept any interference received, including interference that may
cause undesired operation.
The FCC identifier for ENWF9201A1EF is FCC ID: T7V-9026.
The FCC identifier for ENWF9208A1EF is FCC ID: T7V-9026.
6.1.2
Caution
The FCC requires the user to be notified that any changes or modifications
made to this device that are not expressly approved by
Panasonic Industrial Devices Europe GmbH may void the user's authority to
operate the equipment.
This equipment has been tested and found to comply with the limits for a
Class B digital device, pursuant to Part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates uses and
can radiate radio frequency energy and, if not installed and used in accordance
with the instructions, may cause harmful interference to radio communications.
There is no guarantee that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television reception, which can be
determined by turning the equipment off and on.
Product Specification Rev. 1.2
Page 81
PAN9026 Wi-Fi/Bluetooth Module
6 Regulatory and Certification Information
It is recommended to try to correct the interference by one or more of the
following measures:
6.1.3
•
•
•
Reorient or relocate the receiving antenna.
•
Consult the dealer or an experienced radio/TV technician for help.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
Label Requirements
The OEM must ensure that FCC labelling requirements are met. This includes
a clearly visible label (laser marking) on the outside of the OEM enclosure
specifying the appropriate Panasonic FCC identifier for this product as well as
the FCC Notice above.
The FCC identifier for model ENWF9201A1EF is FCC ID: T7V-9026.
The FCC identifier for model ENWF9208A1EF is FCC ID: T7V-9026.
This FCC identifier is valid for the PAN9026. The end product must in any case be labelled on
the exterior with:
“Contains FCC ID: T7V-9026”.
6.1.4
Antenna Warning
This antenna warning refers to the test device with the model number ENWF9201A1EF and
ENWF9208A1EF in bottom pad mode RF-Switch Pins Function.
The device is tested with a standard SMA connector and with the antenna listed below. When
integrated into the OEM’s product, these fixed antennas require installation preventing end
users from replacing them with non-approved antennas. Any antenna not in the following table
must be tested to comply with FCC Section 15.203 for unique antenna connectors and with
Section 15.247 for emissions. The FCC identifier for the device with the antenna listed in
6.1.5 Approved Antenna List is the same (FCC ID: T7V-9026).
6.1.5
Approved Antenna List
Item
Part Number
Manufacturer
Type
Polarization
Frequency Band
Gain (dBi)
Min
1 ANT162442DT- TDK
2001A2
Product Specification Rev. 1.2
Chip
Antenna
Linear
Peak
2.400 - 2.484 GHz
-36
2.1
5.150 - 5.850 GHz
-42
1.5
Page 82
PAN9026 Wi-Fi/Bluetooth Module
6 Regulatory and Certification Information
6.1.6
RF Exposure
To comply with FCC RF Exposure requirements, the OEM must ensure that
only antennas from the Approved Antenna List are installed 6.1.5 Approved
Antenna List.
The preceding statement must be included as a caution statement in manuals
for products operating with the approved antennas in the previous table to alert
users on FCC RF Exposure compliance.
Any notification to the end user of installation or removal instructions about the
integrated radio module is not allowed.
The radiated output power of the PAN9026 with a mounted ceramic chip antenna
(FCC ID: T7V-9026 for model ENWF9201A1EF and ENWF9208A1EF) are
fulfilled for mobile configuration. The installation of the module is restricted to
mobile host devices. The PAN9026 shall be used in such a manner that the
potential for human contact during normal operation is minimized.
End users may not be provided with the module installation instructions.
OEM integrators and end users must be provided with transmitter operating
conditions for satisfying RF exposure compliance.
6.1.7
Integration Instructions
This chapter gives integration instructions for host product manufacturers according to KDB
996369 D03 OEM Manual v01.
Section Topic and Comment
2.2
List of applicable FCC rules
47 CFR Section
Part 15C
Frequency Band (MHz)
2 400 to 2 483.5
Systems
Digital Transmission Systems operating within the 2 400 - 2 483.5
MHz Band
Reference / Requirement
15.247(a)(2), 15.247(b)(1), 15.207, 15.247(d), 15.247(e)
Complied Module M/N
ENWF9201A1EF, ENWF9208A1EF
47 CFR Section
Part 15C
Frequency Band (MHz)
2 400 to 2 483.5
Systems
Frequency Hopping Systems operating within the 2 400 - 2 483.5 MHz
Band
Reference / Requirement
15.247(a)(1), 15.247(a)(1)(iii), 15.247(b)(1), 15.207, 15.247(d)
Complied Module M/N
ENWF9201A1EF, ENWF9208A1EF
47 CFR Section
Part 15E
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6 Regulatory and Certification Information
2.3
Systems
Unlicensed National Information Infrastructure Devices in the 5 GHz
Bands
Reference Method
KDB 905462 D02 v02
Reference / Requirement
15E.407(h)(2)
Complied Module M/N
ENWF9201A1EF
Summarize the specific operational use conditions
Please refer to sections 5 Cautions, 5.3 Usage Condition Notes, and 6.1.5 Approved Antenna
List.
2.4
Limited module procedures
Not applicable, the module has a single-modular transmitter approval.
2.5
Trace antenna designs
Not applicable, the module has a ceramic chip antenna. For guidance regarding the PCB layout
requirements for module integration refer to the Design Guide 7.2.2 Product Information.
2.6
RF exposure considerations
Mobile application, the end customer has to assure that the device has a distance of more than
20 cm from the human body under all circumstances.
2.7
Antennas
Please refer to sections 6.1.4 Antenna Warning and 6.1.5 Approved Antenna List.
2.8
Label and compliance information
Please refer to section 6.1.3 Label Requirements.
2.9
Information on test modes and additional testing requirements
The documents for integration guidance and compliance testing are available here 7.2.2
Product Information.
2.10
Additional testing, Part 15 Subpart B disclaimer
The single-modular transmitter is FCC authorized for the specific rule parts listed at section List
of applicable FCC rules.
The host product manufacturer needs to also consider the FCC requirements for certified modular
transmitter being used in the host product and maintain documentation on how the host product
with the certified modular transmitter complies with the FCC rules. Host product manufacturers are
responsible to follow the integration guidance and to perform a limited set of transmitter module
verification testing, to ensure the end product is in compliance with the FCC rules. Also host
product manufacturers are responsible for all additional equipment authorization and testing for
technical requirements not covered by the module grant (e.g., unintentional radiator Part 15
Subpart B requirements, or transmitters used in the host that are not certified modules).
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
6.2
Innovation, Science, and Economic Development (ISED) for
Canada
English
PAN9026 and versions are licensed to meet the regulatory requirements of ISED.
License for M/N: ENWF9203A1EF:
IC: 216Q-9026
License for M/N: ENWF9208A1EF:
IC: 216Q-9026
Manufacturers of mobile, fixed, or portable devices incorporating this module are advised to
clarify any regulatory questions and ensure compliance for SAR and/or RF exposure limits.
Users can obtain Canadian information on RF exposure and compliance from www.ic.gc.ca.
This device has been designed to operate with the antennas listed in 6.1.5 Approved
Antenna List, having a maximum gain of 2.1 dBi for 2.4 GHz and 1.5 dBi for 5 GHz. Antennas
not included in this list or having a gain greater than 2.1 dBi for 2.4 GHz and 1.5 dBi for 5 GHz
are strictly prohibited for use with this device. The required antenna impedance is 50 Ω. The
antenna used for this transmitter must not be co-located or operating in conjunction with any
other antenna or transmitter.
French
PAN9026 (et ses versions) est garanti conforme aux dispositions règlementaires d’Innovation,
Sciences et Développement économique (ISDE).
Licence pour M/N: ENWF9203A1EF:
IC: 216Q-9026
Licence pour M/N: ENWF9208A1EF:
IC: 216Q-9026
Il est recommandé aux fabricants d’appareils fixes, mobiles ou portables de consulter la
réglementation en vigueur et de vérifier la conformité de leurs produits relativement aux limites
d’exposition aux rayonnements radiofréquence ainsi qu’au débit d’absorption spécifique
maximum autorisé.
Des informations pour les utilisateurs sur la réglementation Canadienne concernant l’exposition
aux rayonnements RF sont disponibles sur le site www.ic.gc.ca.
Ce produit a été développé pour fonctionner spécifiquement avec les antennes listées dans le
tableau 6.1.5 Approved Antenna List, présentant un gain maximum de 2.1 dBi pour 2.4 GHz
et 1.5 dBi pour 5 GHz. Des antennes autres que celles listées ici, ou présentant un gain
supérieur à 2.1 dBi pour 2.4 GHz et 1.5 dBi pour 5 GHz ne doivent en aucune circonstance être
utilises en combinaison avec ce produit. L’impédance des antennes compatibles est 50 Ω.
L’antenne utilisée avec ce produit ne doit ni être située à proximité d’une autre antenne ou d’un
autre émetteur, ni être utilisée conjointement avec une autre antenne ou un autre émetteur.
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6 Regulatory and Certification Information
6.2.1
Radio Standards Specification RSS-247 Issue 2
The Radio Standards Specification RSS-247, Issue 2, Digital Transmission Systems (DTSs),
Frequency Hopping Systems (FHSs) and License-Exempt Local Area Network (LE-LAN)
Devices, replaces RSS-247, Issue 1, dated May 2015. It sets out certification requirements for
radio apparatus operating in the bands 2 400 MHz to 2 483.5 MHz and 5 725 MHz to 5 850 MHz
employing frequency hopping, digital modulation and/or a combination (hybrid) of both
techniques. It also includes license exempt local area network (LE-LAN) devices operating in
the bands 5 150 MHz to 5 250 MHz, 5 250 MHz to 5 350 MHz, 5 470 MHz to 5 725 MHz and
5 725 MHz to 5 850 MHz as specified in SP-5 150 MHz.
6.2.1.1
General
Equipment covered by the standard RSS-247 is classified as Category I equipment. Either a
technical acceptance certificate (TAC) issued by the Certification and Engineering Bureau of
Innovation, Science and Economic Development Canada (ISED) or a certificate issued by a
certification body (CB) is required.
6.2.1.2
Certification Requirements
RSS-247 shall be used in conjunction with RSS-Gen, General Requirements for Compliance of
Radio Apparatus, for general specifications and information relevant to the equipment for which
this standard applies. Equipment certified under the standard is required to comply with the
provisions in RSS‑Gen with respect to emissions falling within restricted frequency bands.
These restricted frequency bands are listed in RSS‑Gen.
6.2.1.3
Measurement Method
In addition to the requirements in RSS-Gen and the requirements of the standard RSS-247, the
method for measuring DTS devices is provided in ANSI C63.10.
6.2.1.4
FHS and DTS operating in the bands 2 400 MHz to 2 483.5 MHz
This section applies to frequency hopping systems (FHSs) in the bands 2 400 MHz to
2 483.5 MHz and 5 725 MHz to 5 850 MHz and digital transmission systems (DTSs) in the band
2 400 MHz to 2 483.5 MHz. Systems in these bands can be frequency hopping, digital
transmission and/or a combination (hybrid) of both types. The digital transmission technology of
DTSs or hybrid systems operating in the band 5 725 MHz to 5 850 MHz shall comply with the
requirement in section Technical requirements for license-exempt local area network devices
and digital transmission systems operating in the 5 GHz band.
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6 Regulatory and Certification Information
RSS-247 Section
5.1
Frequency Band (MHz) 2 400 to 2 483.5
Systems
Frequency Hopping Systems
Systems out of Scope
FHS operating in the band 5 725 MHz to 5 850 MHz
Fixed point-to-point systems
Requirements
The maximum peak conducted output power shall not exceed W if the hopset
uses 75 or more hopping channels; the maximum peak conducted output
power shall not exceed 0.125 W if the hopset uses less than 75 hopping
channels.
Complied Module M/N
ENWF9203A1EF, ENWF9208A1EF
RSS-247 Section
5.2
Frequency Band (MHz) 2 400 to 2 483.5
Systems
Digital Transmission Systems
Systems out of Scope
-
Requirements
The minimum 6 dB bandwidth shall be 500 kHz.
The transmitter power spectral density conducted from the transmitter to the
antenna shall not be greater than 8 dBm in any 3 kHz band during any time
interval of continuous transmission.
The maximum peak conducted output power shall not exceed 1 W. The e.i.r.p.
shall not exceed 4 W.
Complied Module M/N
ENWF9203A1EF, ENWF9208A1EF
RSS-247 Section
5.3
Frequency Band (MHz) 2 400 to 2 483.5
Systems
Hybrid Systems
Systems out of Scope
Hybrid devices operating in the band 5 725 MHz to 5 850 MHz.
Requirements
With the digital transmission operation of the hybrid system turned off, the
frequency hopping operation shall have an average time of occupancy on any
frequency not exceeding 0.4 seconds within a duration in seconds equal to the
number of hopping frequencies multiplied by 0.4.
With the frequency hopping turned off, the digital transmission operation shall
comply with the power spectral density requirements for digital modulation
systems set out in section “5.2” RSS-247 Section.
Complied Module M/N
Product Specification Rev. 1.2
ENWF9203A1EF, ENWF9208A1EF
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6 Regulatory and Certification Information
RSS-247 Section
5.4
Frequency Band (MHz) 2 400 to 2 483.5
Systems
FHSs operating in the band 2 400 to 2 483.5 MHz.
DTSs employing digital modulation techniques operating in the band
2 400 MHz to 2 483.5 MHz.
Systems out of Scope
FHSs operating in the band 902 MHz to 928 MHz and 5 725 MHz to
5 850 MHz.
DTSs employing digital modulation techniques operating in the bands
902 MHz to 928 MHz.
Fixed point-to-point systems in the bands 2 400 MHz to 2 483.5 MHz and
5 725 MHz to 5 850 MHz.
Transmitters operating in the band 2 400 MHz to 2 483.5 MHz, may employ
antenna systems that emit multiple directional beams simultaneously or
sequentially.
Requirements
Transmitter Output Power:
The maximum peak conducted output power shall not exceed 1 W if the
hopset uses 75 or more hopping channels; the maximum peak conducted
output power shall not exceed 0.125 W if the hopset uses less than 75
hopping channels. The e.i.r.p. shall not exceed 4 W.
For DTSs employing digital modulation techniques operating in the band
2 400 MHz to 2 483.5 MHz, the maximum peak conducted output power shall
not exceed W. The e.i.r.p. shall not exceed 4 W.
Complied Module M/N
ENWF9203A1EF, ENWF9208A1EF
RSS-247 Section
5.5
Frequency Band (MHz) 2 400 to 2 483.5
System
In any 100 kHz bandwidth outside the frequency band in which the spread
spectrum or digitally modulated device is operating …
System out of Scope
-
Requirements
Unwanted Emissions:
In any 100 kHz bandwidth outside the frequency band in which the spread
spectrum or digitally modulated device is operating, the RF power that is
produced shall be at least 20 dB below that in the 100 kHz bandwidth within
the band that contains the highest level of the desired power, based on either
an RF conducted or a radiated measurement, provided that the transmitter
demonstrates compliance with the peak conducted power limits. If the
transmitter complies with the conducted power limits based on the use of rootmean-square averaging over a time interval the attenuation required shall be
30 dB instead of 20 dB. Attenuation below the general field strength limits
specified in RSS-Gen is not required.
Complied Module M/N
Product Specification Rev. 1.2
ENWF9203A1EF, ENWF9208A1EF
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6 Regulatory and Certification Information
6.2.1.5
Requirements for LE-LAN and DTS operating in the 5 GHz Band
The section provides standards for Licence-Exempt Local Area Network (LE-LAN) devices
operating in the bands:
•
•
•
•
•
•
5 150 to 5 250 MHz,
5 250 to 5 350 MHz,
5 470 to 5 600 MHz,
5 650 to 5 725 MHz,
5 725 to 5 850 MHz
For DTSs operating in the band 5 725 MHz to 5 850 MHz that employ digital modulation
technology, but are not designed for LE-LAN operation.
Devices with occupied bandwidths which overlap different bands shall comply with all
operational requirements for each band.
RSS-247 Section
6.2.1
Frequency Band (MHz) 5 150 to 5 250
Device Type
LE-LAN devices are restricted to indoor operation only.
Devices out of Scope
OEM devices installed in vehicles.
Power Limits
Maximum e.i.r.p. shall not exceed 200 mW or 10+10 log10B, dBm, whichever
power is less. B is the 99 % emission bandwidth in megahertz. The e.i.r.p.
spectral density shall not exceed 10 dBm in any 1 MHz band.
Unwanted Emission
Limits
For transmitters with operating frequencies in the band 5 150 MHz to
5 250 MHz, all emissions outside the band 5 150 MHz to 5 350 MHz shall not
exceed -27 dBm/MHz e.i.r.p. Any unwanted emissions that fall into the band
5 250 MHz to 5 350 MHz shall be attenuated below the channel power by at
least 26 dB, when measured using a resolution bandwidth between 1 % and
5 % of the occupied bandwidth (i.e. 99% bandwidth), above 5 250 MHz. The
26 dB bandwidth may fall into the 5 250 MHz to 5 350 MHz band; if the
occupied bandwidth also falls within the 5 250 MHz to 5 350 MHz band, the
transmission is considered as intentional and the devices shall comply with all
requirements in the band 5 250 MHz to 5 350 MHz including implementing
dynamic frequency selection (DFS) and TPC, on the portion of the emission
that resides in the 5 250 MHz to 5 350 MHz band.
Complied Module M/N
ENWF9203A1EF, ENWF9208A1EF
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
RSS-247 Section
6.2.2
Frequency Band (MHz) 5 250 to 5 350
Device Type
For devices, other than devices installed in vehicles.
Devices out of Scope
OEM devices installed in vehicles, Outdoor fixed devices, and other devices
having an e.i.r.p. grater than 200 mW.
ENWF9208A1EF (frequency band not supported) Channel Tables based
on Regulatory Domain/Country
Power Limits
The maximum conducted output power shall not exceed 250 mW or
11+10 log10B, dBm, whichever is less. The power spectral density shall not
exceed 11 dBm in any 1 MHz band.
Unwanted Emission
Limits
All emissions outside the band 5 250 MHz to 5 350 MHz shall not
exceed -27 dBm/MHz e.i.r.p.; or:
All emissions outside the band 5 150 MHz to 5 350 MHz shall not
exceed -27 dBm/MHz e.i.r.p. and its power shall comply with the spectral
power density for operation within the band 5 150 MHz to 5 250 MHz. The
device shall be labelled or include in the user manual the following text “For
indoor use only.”.
RSS-247 Section
6.2.3
Frequency Band (MHz) 5 470 to 5 600 and 5 650 to 5 725
Device Type
Devices shall not be capable of transmitting in the band 5 600 MHz to
5 650 MHz. This restriction is for the protection of Environment Canada’s
weather radars operating in this band.
Devices out of Scope
ENWF9208A1EF (frequency band not supported) Channel Tables based
on Regulatory Domain/Country
Power Limits
The maximum conducted output power shall not exceed 250 mW or
11+10 log10B, dBm, whichever is less. The power spectral density shall not
exceed 11 dBm in any 1 MHz band.
Unwanted Emission
Limits
Emissions outside the band 5 470 MHz to 5 725 MHz shall not
exceed -27 dBm/MHz e.i.r.p. Devices with bandwidth overlapping the band
edge of 5 725 MHz can meet the emission limit of -27 dBm/MHz e.i.r.p. at
5 850 MHz instead of 5 725 MHz.
Complied Module M/N
ENWF9203A1EF
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
RSS-247 Section
6.2.4
Frequency Band (MHz) 5 725 to 5 850
Device Type
For equipment operating in the band 5 725 MHz to 5 850 MHz
Devices out of Scope
Fixed point-to-point devices and devices with antenna gain greater than 6 dBi.
Power Limits
The minimum 6 dB bandwidth shall be at least 500 kHz. The maximum
conducted output power shall not exceed 1 W. The output power spectral
density shall not exceed 30 dBm in any 500 kHz band.
Unwanted Emission
Limits
Devices shall have e.i.r.p. of unwanted emissions comply with the following:
27 dBm/MHz at frequencies from the band edges decreasing linearly to
15.6 dBm/MHz at 5 MHz above or below the band edges
15.6 dBm/MHz at 5 MHz above or below the band edges decreasing linearly to
10 dBm/MHz at 25 MHz above or below the band edges
10 dBm/MHz at 25 MHz above or below the band edges decreasing linearly
to -27 dBm/MHz at 75 MHz above or below the band edges
-27 dBm/MHz at frequencies more than 75 MHz above or below the band
edges
Complied Module M/N
ENWF9203A1EF, ENWF9208A1EF
For further information about module variants and its supported channel table
please refer to Channel Tables based on Regulatory Domain/Country.
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
6.2.2
IC Notice
English
The device PAN9026 and versions ( 7.1 Ordering Information), including the
antennas ( 6.1.5 Approved Antenna List), comply with Canada RSS-Gen
Rules. The device meets the requirements for modular transmitter approval as
detailed in RSS-Gen.
Operation is subject to the following two conditions:
1. This device may not cause harmful interference, and
2. This device must accept any inference received, including interference that may cause
undesired operation.
French
Le présent appareil PAN9026 ( 7.1 Ordering Information), les antennes y
compris ( 6.1.5 Approved Antenna List), est conforme aux CNR-Gen d'ISDE
applicables aux appareils radio exempts de licence.
L'exploitation est autorisée aux deux conditions suivantes:
1. L'appareil ne doit pas produire de brouillage, et
2. L'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le
brouillage est susceptible d'en compromettre le fonctionnement.
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
6.2.3
Labeling Requirements
English
Labeling Requirements
The OEM must ensure that IC labelling requirements are met. This includes a
clearly visible label on the outside of the OEM enclosure specifying the
appropriate Panasonic IC identifier for this product as well as the IC Notice
above.
The IC identifiers are:
IC: 216Q-9026 (for M/N: ENWF9203A1EF)
IC: 216Q-9026 (for M/N: ENWF9208A1EF)
These IC identifiers are valid for all PAN9026 modules 7.1 Ordering
Information. In any case, the end product must be labelled on the exterior with:
“Contains IC: 216Q-9026”.
French
Obligations d’étiquetage
Les fabricants d’équipements d’origine (FEO) – en anglais Original Equipment
Manufacturer (OEM) – doivent s’assurer que les obligations d’étiquetage IC du
produit final sont remplies. Ces obligations incluent une étiquette clairement
visible à l’extérieur de l’emballage externe, comportant l’identifiant IC du
module Panasonic inclus, ainsi que la notification ci-dessus.
L’ identifiant IC est:
IC: 216Q-9026 (pour M/N: ENWF9203A1EF)
IC: 216Q-9026 (pour M/N: ENWF9208A1EF)
Cet identifiant est valide pour tous les modules PAN9026 7.1 Ordering
Information. Dans tous les cas les produits finaux doivent indiquer sur leur
emballage externe la mention suivante:
“Contient IC: 216Q-9026”.
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
6.3
European Conformity According to RED (2014/53/EU)
The PAN9026 modules with model number ENWF9202A1EF and ENWF9208A1EF comply with
the standards according to the following LVD (2014/35/EU), EMC-D (2014/30/EU) together with
RED (2014/53/EU) articles:
3.1a Safety/Health:
EN 62368-1:2014
EN 62311:2008
3.1b EMC:
EN 301 489-1 V2.1.1:2017-02
EN 301 489-17 V3.1.1:2017-02
3.2 Radio:
EN 300 328 V2.1.1:2016-11
EN 301 893 V2.1.1:2017-04
EN 300 440 V2.1.1:2017-03
As a result of the conformity assessment procedure described in 2014/53/EU Directive, the
end customer equipment should be labelled as follows:
The end customer has to assure that the device has a distance of more than
20 cm from the human body under all circumstances.
The end customer equipment must meet the actual Safety/Health requirements
according to RED.
PAN9026 and its model versions in the specified reference design can be used in all countries
of the European Economic Area (Member States of the EU, European Free Trade Association
States [Iceland, Liechtenstein, and Norway]), Monaco, San Marino, Andorra, and Turkey.
6.3.1
Radio Equipment Directive
The Radio Equipment Directive 2014/53/EU (RED) establishes a regulatory framework for
placing radio equipment on the market. It ensures a Single Market for radio equipment by
setting essential requirements for safety and health, electromagnetic compatibility, and the
efficient use of the radio spectrum.
The RED aligned the previous Directive, the Radio and Telecommunication Terminal Equipment
Directive 1999/5/EC (R&TTED), with the new legislative framework for the marketing of
products. The RED is applicable as of 2016-06-13. It included a one-year transitional period,
which ended on 2017-06-12 (Article 48). On 2017-06-20, the Commission Implementing
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
Regulation (EU) 2017/1354 was adopted. This specifies how to present the information
provided for in Article 10(10) of Directive 2014/53/EU.
Article 10(10) RED
In cases of restrictions on putting into service or of requirements for authorisation of use,
information available on the packaging shall allow the identification of the Member States or the
geographical area within a Member State where restrictions on putting into service or
requirements for authorisation of use exist. Such information shall be completed in the
instructions accompanying the radio equipment. The Commission may adopt implementing acts
specifying how to present that information. Those implementing acts shall be adopted in
accordance with the advisory procedure referred to in Article 45(2).
•
Class 1:
Radio equipment that can be operated without any restriction in EU, EEA, and EFTA.
According to Article 8(1)b of the RED, it is clarified that no national radio interfaces
specifications are required to be notified under RED;
•
Class 2:
Radio equipment subject to restrictions in one or more EU, EEA and EFTA countries
where:
– The technical parameters are not harmonised through EU, EEA, and EFTA;
–
The technical parameters are harmonised through EU, EEA and EFTA, and do not
fall in above class 1 definition.
Radio equipment class means a class identifying particular categories of radio equipment
which, under this Directive, are considered similar and those radio interfaces for which the radio
equipment is designed.
Article 8 RED
Notification of radio interface specifications and assignment of radio equipment classes 1:
1) Member States shall notify, in accordance with the procedure set out in Directive 98/34/EC,
the radio interfaces which they intend to regulate except:
a) The radio interfaces which fully and without any deviation comply with the Commission
decisions on the harmonised use of radio spectrum adopted pursuant to Decision
No. 676/2002/EC; and
b) The radio interfaces which, in accordance with implementing acts adopted pursuant to
paragraph 2 of this Article, correspond to radio equipment which can be put into service
and used without restrictions within the Union.
2) The Commission shall adopt implementing acts establishing the equivalence between
notified radio interfaces and assigning a radio equipment class, details of which shall be
published in the Official Journal of the European Union. Those implementing acts shall be
adopted in accordance with the examination procedure referred to in Article 45(3).
The Radio Interface Specifications Templates are provided for information in the EFIS database
for applications which use is in harmonised radio spectrum, however with restrictions.
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
6.3.2
Equipment Classes
The PAN9026 is a radio module classified as class-1 or class-2 radio equipment depending on
the frequency band in which it can operate. This equipment class is passed on the end-product
which integrates the module.
Class 1
Class 1 radio equipment can be placed on the market and put into service without restrictions
according to Article 1(3) of Commission Decision 2000/299/EC (Version 2018-01).
This radio module is defined as Class 1 radio equipment when it is restricted to operate in the
following frequency bands:
Sub-class
of Class 1
Application/Reference
Frequency Band Transmit Power/Power Density
(MHz)
22
Wideband Data
Transmission Systems
2 400 to 2 483.5
EN 300 328
54
Wireless Access Systems 5 470 to 5 725
including Radio Local Area
Networks (WAS/RLANs)
100 mW e.i.r.p and 100 mW/100 kHz
e.i.r.p. density applies when frequency
hopping modulation is used, 10 mW/MHz
e.i.r.p. density applies when other types of
modulation are used.
1 W mean e.i.r.p., 50 mW/MHz mean
e.i.r.p. density in any 1 MHz band.
EN 301 893
43
Non-Specific Short Range
Devices
5 725 to 5 875
25 mW e.i.r.p.
EN 300 440
Class 2
Class 2 radio equipment are restricted in accordance with Article 1(3) of Commission Decision
2000/299/EC1 if the equipment falls within the scope of Class 2.
This radio module is also defined as Class 2 radio equipment when it is restricted to operate in
the following frequency bands:
Sub-class
of Class 2
Application/Reference
Frequency Band Transmit Power/Power Density
(MHz)
H01
Wireless Access Systems 5 150 to 5 350
including Radio Local Area
Networks (WAS/RLANs)
Max. 200 mW mean e.i.r.p. and max.
10 mW/MHz mean e.i.r.p. density in any
1 MHz band.
Restricted to indoor use
EN 301 893
The usage of PAN9026 module in a vehicular environment cannot be
considered as indoor use.
Product Specification Rev. 1.2
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6 Regulatory and Certification Information
6.4
Bluetooth Qualification
The PAN9026 series modules are Bluetooth qualified as "Controller Subsystem". Following the
qualified design ID’s listed for the module:
Bluetooth
Project
Power Class
Product
Name
BR/EDR LE
Controller
PAN9026 Class I
1
PAN9026 Class II
2
Model
1.5 ENWF920xA1EF
Declaration ID
QDID
D044188
128779
D044187
129672
Subsystem
2
If the module is combined with a host stack that is Bluetooth qualified as "Host Subsystem" it is
possible to list an “End Product” without any further qualification tests.
The OpenSynergy Bluetooth software is commercially available and is
delivered in source code format. Applications that are built using the Blue SDK
are executed in Linux user space making development easy. The stack
software and profiles are qualified components and are listed on the Bluetooth
SIG website.
•
•
Blue SDK v6.x and Low Energy SDK v3.x: QDID 120439
Bluetooth traditional profiles: QDID 117748
Bluetooth Marks
According to the Bluetooth SIG, the PAN9026 fulfills the criteria to label your product as a
Bluetooth device:
For further information please refer to the Bluetooth website www.bluetooth.com.
6.5
RoHS And REACH Declaration
The latest declaration of environmental compatibility (RoHS and REACH) for supplied products
can be found on the Panasonic website in the “Downloads” section of the respective product
7.2.2 Product Information.
Product Specification Rev. 1.2
Page 97
PAN9026 Wi-Fi/Bluetooth Module
7 Appendix
7 Appendix
7.1
Ordering Information
Variants and Versions
22
Order Number
Brand (Version) Description
MOQ
ENWF9201A1EF
PAN9026 (US)
Wi-Fi/Bluetooth radio module IEEE 802.11 a/b/g/n
Bluetooth /LE 5.0 with a ceramic chip-antenna, US
version23
1 000
ENWF9202A1EF
PAN9026 (EU)
Wi-Fi/Bluetooth radio module IEEE 802.11 a/b/g/n
Bluetooth /LE 5.0 with a ceramic chip-antenna, EU
version24
1 000
ENWF9203A1EF
PAN9026 (CA)
Wi-Fi/Bluetooth radio module IEEE 802.11 a/b/g/n
Bluetooth /LE 5.0 with a ceramic chip-antenna, CA
version25
1 000
ENWF9208A1EF
PAN9026 (MR)
Wi-Fi/Bluetooth radio module IEEE 802.11 a/b/g/n
Bluetooth /LE 5.0 with a ceramic chip-antenna, Multi-region
version certified for US, EU, and CA26
1 000
ENWF9209A1EF
PAN9026 (WW)
Wi-Fi/Bluetooth radio module IEEE 802.11 a/b/g/n
Bluetooth /LE 5.0 with a ceramic chip-antenna, noncertifified world-wide version27
1 000
ENWF9201AZEF
PAN9026-ETU
PAN9026 SDIO Adapter with module ENWF9201A1EF
1
ENWF9201AYEF
PAN9026-KIT
PAN9026 Kit: 2x PAN9026 SDIO Adapter with module
ENWF9201A1EF and 1x Case
1
ENWF9201AXEF
PAN9026-IMX
i.MX6+PAN9026 Development Kit: 1x PAN9026 MicroSD
Adapter, 1x Wandboard WBIMX6U, 1x MicroSD Card, 1x
Adapter cable USB-A to DC 5.5/2.5 mm plug
1
ENWF9201AWEF
PAN9026-MSD
PAN9026 MicroSD Adapter with module ENWF9201A1EF
1
For further information please refer to our product documentation 7.2.2 Product Information.
22
Abbreviation for Minimum Order Quantity (MOQ). The standard MOQ for mass production is 1 000 pieces, fewer only on
customer demand. Samples for evaluation can be delivered at any quantity via the distribution channels.
23
The US version is restricted to FCC regulatory domain with blocked country code and Tx power table. The device does not
support the channels 12 to 13 in the 2.4 GHz band and any non-US channels. TPC, DFS, and passive scanning mechanism
are set by the regulatory domain’s channel table, which is stored on the OTP memory of device.
24
The EU version is restricted to European regulatory domain ETSI with blocked country code and Tx power table. TPC, DFS,
and passive scanning mechanism are set by the regulatory domain’s channel table, which is stored on the OTP memory of
device.
25
The CA version is restricted to Canadian regulatory domain ISED with blocked country code and Tx power table. The device
does not support the channels 12 to13 in the 2.4 GHz band and any non-CA channels. TPC, DFS, and passive scanning
mechanism are set by the regulatory domain’s channel table, which is stored on the OTP memory of device.
26
The multi-region version is restricted to FCC, European ETSI, and Canadian ISED regulatory domain with blocked Tx power
table, which is stored on the OTP memory of device. The device does not support the channels 12 to13 in the 2.4 GHz band.
DFS and passive scanning mechanism are not necessary as only the non-DFS channels in the 5 GHz band are supported.
27
The world-wide version is a non-certified variant. Regulatory domain based settings like country code, Tx power, non-usable
channels, TPC, DFS, and passive scanning are controlled by the CRDA application on host system. It is necessary to
implement a Geo-location mechanism on host platform.
Product Specification Rev. 1.2
Page 98
PAN9026 Wi-Fi/Bluetooth Module
7 Appendix
7.2
7.2.1
Contact Details
Contact Us
Please contact your local Panasonic Sales office for details on additional product options and
services:
For Panasonic Sales assistance in the EU, visit
https://eu.industrial.panasonic.com/about-us/contact-us
Email: wireless@eu.panasonic.com
For Panasonic Sales assistance in North America, visit the Panasonic Sales & Support Tool to
find assistance near you at
https://na.industrial.panasonic.com/distributors
Please visit the Panasonic Wireless Technical Forum to submit a question at
https://forum.na.industrial.panasonic.com
7.2.2
Product Information
Please refer to the Panasonic Wireless Connectivity website for further information on our
products and related documents:
For complete Panasonic product details in the EU, visit
http://pideu.panasonic.de/products/wireless-modules.html
For complete Panasonic product details in North America, visit
http://www.panasonic.com/rfmodules
Product Specification Rev. 1.2
Page 99