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PAN9026 Wi-Fi/BT Module 

 

 

 

 

 

5 Cautions, Life Support Policy, RoHS Declaration, and Regulatory Information 

 

 

 

Product Specification Rev. 0.1 

 

Page 80 

 

5.1.5  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. 

 

5.1.6  Other Cautions 

1.  This specification sheet is copyrighted. Do not disclose it to a third party. 

2.  Do not use the products for other purposes than those listed. 

3.  Be sure to provide an appropriate fail-safe function on your product to prevent an 

additional damage that may be caused by the abnormal function or the failure of the 

product. 

4.  This product has been manufactured without any ozone chemical controlled under the 

Montreal Protocol. 

5.  These products are not intended for uses other than under the special conditions shown 

below. Before using these products 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). 

6.  If an abnormal voltage is applied due to a problem occurring in other components or 

circuits, replace these products with new products because they may not be able to 
provide normal performance even if their electronic characteristics and appearances 

appear satisfactory. 

7.  When you have any question or uncertainty, contact Panasonic. 

 

Summary of Contents for PAN9026

Page 1: ...PAN9026 Wi Fi Dual Band 2 4 5 GHz and Bluetooth Module Product Specification Rev 0 1 Wireless Modules ...

Page 2: ...ures Dual simultaneous and independent WLAN and Bluetooth operation Indoor Location and Navigation with IEEE 802 11mc Power management with sleep clock Coexistence interface for arbitration of co located 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 Android driver Wide temperature range of 30 to...

Page 3: ...lly 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...

Page 4: ...stence 16 2 8 WLAN 29 2 9 Bluetooth 34 3 Detailed Description 36 3 1 Dimensions 36 3 2 Footprint 37 3 3 Packaging 38 3 4 Case Marking 43 4 Specification 44 4 1 Default Test Conditions 44 4 2 Absolute Maximum Ratings 45 4 3 Recommended Operating Conditions 46 4 4 RF Electrical Characteristics 66 4 5 Reliability Tests 76 4 6 Recommended Soldering Profile 77 5 Cautions Life Support Policy RoHS Declar...

Page 5: ... 2 Revision History Revision Date Modifications Remarks 0 1 13 04 2017 1st preliminary version 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 crossr...

Page 6: ... 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...

Page 7: ... PAN9026 Wi Fi BT Module 2 Product Overview Product Specification Rev 0 1 Page 7 2 1 Block Diagram ...

Page 8: ...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 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 1 Multi purpose pins After the firmw...

Page 9: ...st Operation C2 IO3 Digital I O General Purpose IO GPIO 3 DVSC 1 Output signal Digital voltage scaling control for PMIC VOUT 1 05V 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...

Page 10: ...h 100 k to GND if using UART interface for BT 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 G5 1 UART_CTS 4 Input signal Clea...

Page 11: ...tenna RF OUT Pin A7 RF_SW1 Input signal 3 0 V 3 6 V typ 3 3 V GND 0 V B7 RF_SW2 Input signal GND 0 V 3 0 V 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 attach a 100 k resistor from the pin to ground No external ...

Page 12: ...ment 2 3 1 Power Configuration with 3 3V Host Operation 2 3 2 Power Configuration with 1 8V Host Operation Further information 4 3 4 Power up Sequence PAN9026 VIO VIO SD VIO RF VDD 2 2 V VDD 1 8 V 3 3 V 2 2 V 1 8 V DC DC DC DC LDO Step up Step down VDD 1 8 V 1 8 V 1 8 V 3 3 V 3 3 V 2 2 V 2 2 V Dual ...

Page 13: ... to the industry standard 16550 specification 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 SDIO interface The device supports a SDIO device interface that conforms to the industry standard SDIO full speed card specification and allows a host controller...

Page 14: ...ry Type Features General Purpose I O GPIO Interface User defined GPIOs each configured to either input or output Each GPIO controlled independently Each I O configurable to output bit from GPIO_OUT One Time Programmable Memory OTP Storing device specific calibration data and hardware information like MAC BD address WLAN and Bluetooth parameter Programmed during production process of device Device ...

Page 15: ... 16 bits Up to four slots with configurable bit width and start positions Short frame and long frame synchronization TDM Interface Marvell proprietary interface TDM slave mode 48 kHz sampling rate bi directional voice mono data Multi point to multi point interface Single controller multi master on bus Flexible frame period width polarity dummy start space bits number of channels supported 3 and 4 ...

Page 16: ...ion 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 c...

Page 17: ... Configuration External MWS Device External BCA Device WLAN MAC BCA Bluetooth RF Front End Host BCA WLAN CTL BCA BT CTL MWS to BCA BCA to MWS COEX SIN COEX SOUT External LTE Device 88W8977 Radio SoC BCA WLAN CTL External BCA Device BCA WLAN MAC 88W8977 Radio SoC BT REQ BT STATE BT FREQ BT GRANTn ...

Page 18: ...e 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 Transpo...

Page 19: ...l 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_T...

Page 20: ...r period If the signal is not transmitted within 4 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 ...

Page 21: ...re set to 1 the inactivity duration is infinite If all bits are set to 0 or MWS_RX or 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 MWS_SCAN_FREQUENCY_ OFFSET signal 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 F...

Page 22: ...bitration 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 or 2 bit Bluetooth direction Bluetooth frequency in out band MWS priority 2 bit MWS direction AFH If AFH is enabled in the Bluetooth device and there is sufficient guard band outside the WLAN o...

Page 23: ...terference 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 Bl...

Page 24: ... 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 ...

Page 25: ...rols the type of traffic in priority mode Mechanism enforced for control include 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 Timing Control The PTA signal timing sch...

Page 26: ... 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 AMPDU treated as single packet Packet Classification 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 separat...

Page 27: ...able passing information to and from the collocated MWS device and Coexistence Controller when long latency tens of milliseconds cannot be tolerated Further information 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 FRA...

Page 28: ...support ZigBee coexistence The coexistence logical signaling is used to allow a ZigBee device and a WLAN Bluetooth combo 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 chos...

Page 29: ...2 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 WLAN MAC 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 Acce...

Page 30: ...nd transmission Short Guard Interval for both 20 and 40 MHz operation TX RX RIFS on receive path Beamformer function and hardware acceleration Greenfield TX RX 802 11mc locationing Power save features WLAN Radio Integrated direct conversion radio 20 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 figu...

Page 31: ...S IEEE 802 11b 5 5 11 Mbps DSSS CCK Supported data rates 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 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 HT40 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 op...

Page 32: ...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 40 MHz Channels Channel 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 1...

Page 33: ...85 MHz 161 5 805 MHz 165 5 825 MHz 5 GHz IEEE 802 11a n India and additional UNII Channels 20 MHz Channels 40 MHz Channels Channel 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 169 1737 5 855 MHz 173 177 5 875 MHz 6 India channels that c...

Page 34: ...ontrol 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 ...

Page 35: ... and Slave roles support 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 2 Mbps LE Direction Finding Connectionless Angle of Departure AoD Connection oriented Angle of Arrival AoA ...

Page 36: ...Description Product Specification Rev 0 1 Page 36 3 Detailed Description 3 1 Dimensions All dimensions are in millimeters No Item Dimension Tolerance Remark 1 Width 10 00 0 35 2 Length 17 50 0 35 3 Height 2 55 0 20 with case 17 50 10 2 55 ...

Page 37: ...0 80 mm A1 B1 C1 D1 E1 F1 A2 B2 C2 D2 E2 F2 G2 A3 B3 C3 D3 E3 F3 G3 A4 B4 C4 D4 E4 F4 G4 A5 B5 F5 G5 A6 B6 F6 G6 A7 B7 F7 G7 A8 B8 F8 G8 A9 B9 C9 D9 E9 F9 G9 Chip Antenna 0 80 mm 2 20 mm 3 60 mm 5 00 mm 17 50 mm 6 40 mm 7 80 mm 9 20 mm 10 60 mm 12 00 mm 1 40 mm 12 00 mm 4 80 mm 8 00 mm 1 00 mm 1 00 mm 2 20 mm 0 80 mm 3 60 mm 5 00 mm 6 40 mm 7 80 mm 9 20 mm 10 00 mm Ground plane keep out area Top V...

Page 38: ... X A Y Y SECTION X X 0 20 0 05 R0 75 DETAIL A Ko T 0 30 0 03 Bo SECTION Y Y Measured from centreline of sprocket hole to centreline of pocket Cumulative tolerance of 10 sprocket holes is 0 20 Measured from centreline of sprocket hole to centreline of pocket I II III IV Other material available ALL DIMENSIONS IN MILLIMETRES UNLESS OTHERWISE STATED W F S O 0 15 0 15 0 3 14 20 28 40 32 00 Ao 18 05 0 ...

Page 39: ...Rev 0 1 Page 39 3 3 2 Packing in Tape Empty spaces in the component packed area shall be less than two per reel and those spaces shall not be consecutive The top cover tape shall not be found on reel holes and it shall not stick out from the reel 3 3 3 Component Direction ...

Page 40: ... PAN9026 Wi Fi BT Module 3 Detailed Description Product Specification Rev 0 1 Page 40 3 3 4 Reel Dimension ...

Page 41: ... Module 3 Detailed Description Product Specification Rev 0 1 Page 41 3 3 5 Package Label Example 1T Lot code 1P Customer order number if applicable 2P Order number 9D Date code Q Quantity HW SW Hardware Software version ...

Page 42: ...al Package barcode label moisture sensitive print already exist on barrier bag barcode label desiccant 1 2 moisture indicator barrier bag sealed inner carton box size 340 x 340 x 41 mm 1 quantity of desiccant according to calculation 2 optional desiccant placed into the corner of the barrier bag ...

Page 43: ...View 1 2 3 4 5 6 7 8 9 10 11 Brand name Hardware Software version Engineering Sample optional Model Name ENW number Lot code Serial number WLAN MAC address BD address Reserved Marking for Pin 1 2D barcode for internal usage only PAN9026 HW SW ES M N ENWF9201A1EF YYWWDLL 12345678 0013430B801E 11 1 3 4 2 5 6 7 10 9 0013430B801F 8 ...

Page 44: ...tion Rev 0 1 Page 44 4 Specification All specifications are over temperature and process unless indicated otherwise 4 1 Default Test Conditions Temperature 25 10 C Humidity 40 to 85 RH Supply Voltage VDD2V2 2 2 V VDD1V8 1 8 V VIORF 3 3 V VIOSD 3 3 V VIO 3 3 V ...

Page 45: ...rameter Condition Min Typ Max Units TSTOR Storage temperature 55 125 C VESD ESD robustness All pads according to human body model HBM JEDEC STD 22 method A114 1 000 V According to charged device model CDM JEDEC STD 22 method C101 500 V PRF RF input level 20 dBm VDD1V8 Maximum voltage Maximum power supply voltage from any pin with respect to VSS GND 1 8 1 98 V VDD2V2 2 2 2 3 V VIOSD 1 8 2 2 V 3 3 4...

Page 46: ...pply voltage 8 VDD voltage on pins A6 B5 B6 2 09 2 20 2 29 V VIOSD Digital I O VIOSD supply voltage 9 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 VIO Digital I O VIO supply voltage 9 Pin G4 with 1 8 V operation 1 62 1 80 1 98 V Pin G4 with 3 3 V operation 2 97 3 30 3 47 V VIORF Digital I O VIORF supply voltage 8 Pi...

Page 47: ...VIO 0 4 V VIL Low level input voltage 3 3 V operation VIO 3 3 V 0 4 0 3 VIO V VHYS Input hysteresis 100 mV VOH High level ouput voltage 3 3 V operation VIO 3 3 V VIO 0 4 V VHO Low level output voltage 3 3 V operation VIO 3 3 V 0 4 V VIOSD 1 8 V Operation for SDIO I F10 Symbol Parameter Condition Min Typ Max Units VIH High level input voltage 1 8 V operation VIOSD 1 8 V 0 7 VIOSD VIOSD 0 4 V VIL Lo...

Page 48: ...age 3 3 V operation VIOSD 3 3 V 0 7 VIO_SD VIO_SD 0 4 V VIL Low level input voltage 3 3 V operation VIOSD 3 3 V 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 0 4 V VHO Low level output voltage 3 3 V operation VIOSD 3 3 V 0 4 V For SDIO 3 0 standard modes SDR12 SDR25 SDR50 and DDR50 a supply voltage of VIOSD 1 8 V is needed ...

Page 49: ...Current Consumption Symbol Parameter Condition Min Typ Max Units IVDD1V8 TX Active Transmit11 PTX 17 dBm for 5 GHz band 802 11a 6 Mbps tbd mA PTX 15 dBm for 5 GHz band 802 11n 20M 72 Mbps tbd mA PTX 17 dBm for 2 4 GHz band 802 11b 11 Mbps tbd mA PTX 17 dBm for 2 4 GHz band 802 11g 54 Mbps tbd mA PTX 15 dBm for 2 4 GHz band 802 11n 40M 150 Mbps tbd mA IVDD2V2 TX Active Transmit11 PTX 17 dBm for 5 G...

Page 50: ...r Save13 DTM 1 with beacon interval 100 ms tbd mA IVDD2V2 IEEE PS tbd mA Bluetooth Current Consumption Symbol Parameter Condition Min Typ Max Units IVDD1V8 TX Peak BR PTX 8 dBm tbd mA Peak EDR PTX 4 dBm tbd mA Peak LE PTX 4 dBm tbd mA IVDD2V2 TX Peak BR PTX 8 dBm tbd mA Peak EDR PTX 4 dBm tbd mA Peak LE PTX 4 dBm tbd mA IRX BR tbd mA EDR tbd mA LE tbd mA ISCAN BT Page Inquiry Scan 1 28 s normal mo...

Page 51: ...m Encryption clock speed Refers to clock speed of SoC s CPU1 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 ...

Page 52: ...dule 4 Specification Product Specification Rev 0 1 Page 52 4 3 4 Power up Sequence Symbol Parameter Min Typ Max Units VDD1V8 Voltage level of VDD2V2 90 PDn Voltage level of VDD2V2 90 VIO VIOSD VIORF VDD2V2 VDD1V8 PDn 90 90 ...

Page 53: ...OSD 3 3 V 14 15 Symbol Parameter Condition Min Typ Max Units fPP Clock frequency Normal 0 25 MHz High speed 0 50 MHz TWL Clock low time Normal 10 ns High speed 7 ns TWH Clock high time Normal 10 ns High speed 7 ns TISU Input setup time Normal 5 ns High speed 6 ns TIH Input hold time Normal 5 ns High speed 2 ns TODLY Output delay time Normal 14 ns CL 40 pF 1 card High speed 14 ns TOH Output hold ti...

Page 54: ... PAN9026 Wi Fi BT Module 4 Specification Product Specification Rev 0 1 Page 54 SDIO Protocol Timing Diagram Default Speed Mode VIOSD 3 3 V SDIO Protocol Timing Diagram High Speed Mode VIOSD 3 3 V ...

Page 55: ...100 MHz TIS Input setup time SDR12 SDR25 SD R50 3 ns TIH Input hold time SDR12 SDR25 SD R50 0 8 ns TCLK Clock time SDR12 SDR25 SD R50 10 40 ns TCR TCF Rise time fall time TCR TCF 2 ns max at 100 MHz CCARD 10 pF SDR12 SDR25 SD R50 0 2 TCLK ns TODLY Output delay time CL 30 pF SDR12 SDR25 SD R50 7 5 ns TOH Output hold time CL 15 pF SDR12 SDR25 SD R50 1 5 ns SDIO Protocol Timing Diagram SDR12 SDR25 SD...

Page 56: ... pF 1 card DDR50 6 ns TIH Input hold time CCARD 10 pF 1 card DDR50 0 8 ns CMD Output referenced to clock rising edge TODLY Output delay time during data transfer mode CL 30 pF 1 card DDR50 13 7 ns TOHLD Output hold time CL 15 pF 1 card DDR50 1 5 ns DAT 3 0 Input referenced to clock rising and falling edge TIS2x Input setup time CCARD 10 pF 1 card DDR50 3 ns TIH2x Input hold time CCARD 10 pF 1 card...

Page 57: ...duct Specification Rev 0 1 Page 57 SDIO CMD Timing Diagram DDR50 Mode VIOSD 1 8 V 50 MHz SDIO DAT 3 0 Timing Diagram DDR50 Mode16 VIOSD 1 8 V 50 MHz 16 In DDR50 mode DAT 3 0 lines are sampled on both edges of the clock not applicable for CMD line ...

Page 58: ...t 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 8 bit Parity bit 0 4 bit Stop bit 1 2 bit Interface Signals Pin No Signal Name Specification Name Type Description F3 UART_SOUT TXD Host Controller Interface HCI Transmit data output F4 UAR...

Page 59: ...te 1 200 4 000 000 3 000 000 Baud Data Bits 5 8 8 LSB first Parity Bits 0 4 0 Stop Bit 1 1 5 2 1 Supported Baud Rates Baud 1 200 2 400 4 800 9 600 19 200 38 400 57 60 76 800 115 200 230 400 460 800 500 000 921 600 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 ...

Page 60: ...ace 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 GPIO IN 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 YES LED Mode Symbol Parameter Condition Typ Units IOH Switching ...

Page 61: ...f 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 PCM_CLK and a 8 kHz PCM_SYNC signal An alternative PCM master mode is available that uses an externally generated PCM_CLK but still generates the 8 kHz PCM_SYNC The external PCM_CLK must have a frequency that is an integer multiple of 8 kHz Suppo...

Page 62: ...tion Rev 0 1 Page 62 PCM Timing Data Master Mode Symbol Min Typ Max Units FBCLK 2 2 048 MHz Duty CycleBCLK 0 4 0 5 0 6 TBCLK rise fall 3 ns TDO 15 ns TDISU 20 ns TDIHO 15 ns TBF 15 ns PCM Timing Diagram Master Mode CLK DOUT DIN SYNC TBF TTDO TBCLK TDISU TDIHO ...

Page 63: ... 1 Page 63 PCM Timing Data Slave Mode Symbol Min Typ Max Units FBCLK 2 2 048 MHz Duty CycleBCLK 0 4 0 5 0 6 TBCLK rise fall 3 ns TDO 30 ns TDISU 15 ns TDIHO 10 ns TBFSU 15 ns TBFHO 10 ns PCM Timing Diagram Slave Mode CLK DOUT DIN SYNC TBFSU TTDO TBCLK TDISU TDIHO TBFHO ...

Page 64: ... devices on the bus Each device has a master or slave capability on the BCLK and FSYN lines but there can only be one master at a time Only one peripheral can drive the bus at a time but multiple peripherals can read from the bus simultaneously Operation The TDM interface is a 3 4 wire bus interface for audio data transmission among different devices connected to the bus Taking principles from the...

Page 65: ...Specification Product Specification Rev 0 1 Page 65 4 3 8 Coexistence Interface The Coexistence Interface pins are powered from the voltage supply VIO with either 3 3 V or 1 8 V DC specification 4 3 1 Digital Pin Characteristics ...

Page 66: ...AN 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 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 ...

Page 67: ...F connector Parameter Condition Min Typ Max Units RF frequency range 2 400 2 483 5 MHz Carrier frequency tolerance 25 25 ppm Transmit output power 17 dBm Spectrum mask fC 11 MHz 30 dBr fC 22 MHz 50 Power on Power down ramp 2 µs RF Carrier suppression 15 dB Error Vector Magnitude EVM Peak 35 Minimum Receive Sensitivity 1 Mbps DSSS FER 8 98 dBm 2 Mbps DSSS FER 8 93 80 dBm 5 5 Mbps CCK FER 8 91 dBm 1...

Page 68: ...ency leakage 15 dB Transmitter Spectral Flatness 4 4 dB Constellation Error EVM 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 Minimum Receive Sensitivity BPSK CR 1 2 6 Mbps PER 10 91 82 dBm BPSK CR 3 4 9 Mbps PER 10 90 81 dBm QPSK CR ...

Page 69: ...ansmitter Spectral Flatness 4 4 dB Constellation Error EVM 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 Minimum Receive Sensitivity17 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...

Page 70: ... MHz 20 dBr fC 40 MHz 28 dBr fC 60 MHz 45 dBr Transmitter center frequency leakage 20 dB Transmitter Spectral Flatness 4 4 dB Constellation Error EVM 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 Minimum Receive Sensitivity17 13 5 Mbps MCS0 PER 10 86 79...

Page 71: ...3 MCS4 16 dBm MCS5 MCS7 15 dBm Spectrum mask fC 11 MHz 20 dBr fC 20 MHz 28 dBr fC 30 MHz 40 dBr Transmitter center frequency leakage 15 dB Transmitter Spectral Flatness 4 4 dB Constellation Error EVM 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 Minimum...

Page 72: ...CS4 16 dBm MCS5 MCS7 15 dBm Spectrum mask fC 21 MHz 20 dBr fC 40 MHz 28 dBr fC 60 MHz 40 dBr Transmitter center frequency leakage 20 dB Transmitter Spectral Flatness 4 4 dB Constellation Error EVM 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 Minimum Re...

Page 73: ...MHz 28 dBr fC 30 MHz 40 dBr Transmitter center frequency leakage 15 dB Transmitter Spectral Flatness 4 4 dB Constellation Error EVM 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 Minimum Receive Sensitivity BPSK CR 1 2 6 Mbps PER 10 90...

Page 74: ...SK RSL 67 dBm BER 0 1 C I Co channel 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 C I Image 1 MHz 20 dB 8 DPSK RSL 67 dBm BER 0 1 C I Co channel 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 C I Image 1 MHz 13 dB Interference Performance Low Energy C I Ratio GFSK RSL 67 dBm BER 0 1 C I Co channel 21 dB C I 1 MHz 15 dB C I 2 MHz 17 dB C I 3 MHz 27 dB C I...

Page 75: ... 5 MHz Maximum Output power Basic Rate BR 8 dBm Enhanced Data Rate EDR 4 dBm Low Energy LE 4 10 dBm Gain range Gain control 30 dB Gain resolution 0 5 dB Spurious emission BR in band 500 kHz 20 dBc 2 MHz M N 2 20 dBm 3 MHz or greater M N 3 40 dBm Spurious emission EDR in band 1 MHz 26 dBc 1 5 MHz 20 dBm 2 5 MHz 40 dBm Spurious emission LE in band 2 MHz M N 2 20 dBm 3 MHz or greater M N 3 30 dBm ...

Page 76: ...Electrical parameter should be in specification Freq 10 50 Hz Amplitude 1 5 mm 20 min cycle 1 hrs each of XYZ axis Freq 30 100 Hz 6G 20 min cycle 1 hrs each of XYZ axis 2 Shock test See above Dropped onto hard wood from a height of 50 cm for 3 times 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...

Page 77: ...ng Profile Reflow permissible cycle 2 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 Soldering profile assumes lead free soldering ...

Page 78: ...imum tolerance 6 The supply voltage should not be exceedingly high or reversed It should not carry noise and or spikes 7 Keep this product away from other high frequency circuits 5 1 2 Installation Notes 1 Reflow soldering is possible twice based on the conditions in 4 6 Recommended Soldering Profile Set up the temperature at the soldering portion of this product according to this reflow profile 2...

Page 79: ...al electronic equipment such as home appliances office equipment information and communication equipment 5 1 4 Storage Notes 1 The module should not be stressed mechanically during storage 2 Do not store these products in the following conditions or the performance characteristics of the product such as RF performance will be adversely affected Storage in salty air or in an environment with a high...

Page 80: ...ed 3 Be sure to provide an appropriate fail safe function on your product to prevent an additional damage that may be caused by the abnormal function or the failure of the product 4 This product has been manufactured without any ozone chemical controlled under the Montreal Protocol 5 These products are not intended for uses other than under the special conditions shown below Before using these pro...

Page 81: ...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 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 3 RoHS And REACH De...

Page 82: ...f Fi Bluetooth radio module IEEE 802 11 a b g n BT BLE 4 2 with a ceramic chip antenna 1 000 For further information please refer to our product documentation 6 2 2 Product Information 19 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...

Page 83: ...erica 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 6 2 2 Product Information Please refer to the Panasonic Wireless Connectivity website for further information on our products and related documents For complete ...

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