MSD40NBT - Hardware Integration Guide (v.02)
Contents
1. Solder Paste Type No Clean as the soldered part to board clearance will not allow for adequate post solder cleaning Rework is technically challenging due to parts on the SIP reflowing at the same temperature needed for rework The SDC SSD45N cannot be lifted by the shield during rework As such removal of part for rework is not recommended Reflow without removal has been successfully used to clear shorts found during x ray inspection Reflow The SDC SSD45N is ROHS compliant and as such is sensitive to heat The below graphic details a typical profile for such and device and is provided for reference purposes Recommendations If the SSD45N has been removed from the moisture protective packaging for more than 24 hours bake at 125 degrees Celsius for 24 hours per Jedec STD 033 This is a preparatory step prior to reflow to ensure that the SIPs are sufficiently dehydrated Reflow should occur immediately following baking to prevent rehydration Embedded Wireless Solutions Support 20 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide 245 5 i to 160 120 Oo 2 a t9 E Heating Pre heating Soldering Cooling I 9 Time s Within 90 to 120 Within 60 to 80 160 220 C about 60 s We recommend that the peak temperature at t2. EEE DELLE Low Frequency bypass capacitors LLLI LLLLLELE DVDD_SOC2 Embedded Wireless Solutions Support 22 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide REFERENCE SCHEMATIC 3V3 WIFI C1 ao UFL R SMT 10 BT_UART 0 1uF JTAG HMODE VDDIO ca vDDio GNO lt 4 GND I 0 1 uF JUL u wuanato Hz when BT 3V3 F2 1 pono ie H5 4 VDDIO T GND Es Te to sa 56 m WL LED ACT ANTE SDO CIK p 2 216 5 O P lu A SDIODT VW TA a A L I ILI nu WL_GPIO_WOW Q P 21 NOPOP 1N4148 Soo cup 1 L L1 E E 80 00 HMOD o DDIO e g SDIO A 1 1 HMODEO cue Pwo DVDD SOC2 1P10 RE LET e O 2 DID C4 O 1V8 WIFI C5 63 CO CO CO e BT CLK OUT BT CLK REQ GND 3V3 WIFI o ii iilii gt D NZ VDDIO o T O P SDIO HOST 3V3 or 1V8 y same Lp au Jp y 43V3 3V3x WIFI MH C13 J D a GHD GND GND 3V3 1V8 WIFI Vout 0 8 1 R1 R2 ap Embedded Wireless Solutions Support 23 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide REGULATORY Certified Antennas Laird does not have specific regulatory app
3. O NA 01 amp IN Embedded Wireless Solutions Support GND GND GND GND ANT_2 GND GND GND GND ANT_1 GND GND GND GND GND GND GND GND BI PCM OUT RSVD BI HOST WAKE B RSVD VDD3 3 GND BI UART CTS N BI UART RTS N BI UART TXD BI UART RXD RSVD RSVD GND RF IN OUT GND GND GND GND GND GND VDD3 3 TMS TDI TDO WLAN_UART_TXD TCK GND GND DEBUG_UART_TXD NC NC NC DVDD_SOC2 GND SDIO_CLK SDIO_DATA_1 SDIO DATA O SDIO_CMD SDIO_DATA_2 SDIO_DATA_3 GND VBAT VDD3_3 GND Center http ews support lairdtech com www lairdtech com wireless 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 5 58 59 60 RSVD VDDIO WL LED ACT WL GPIO 1 SYS_RST_L CHIP_PWD_L RSVD SDIO DATA O GND SDIO CLK GND SDIO DATA 1 SDIO DATA 3 SDIO DATA 2 SDIO CMD GND RSVD SDIO SEL WLAN ACTIVE BT PRIORITY BT FREQ BI ACTIVE RSVD RSVD RSVD RSVD VDD3 3 VDD3 3 DVDD_SDIO GND CLK_32K GND BI CLK OUT GND BI RX FRAME BI ACTIVE BT PRIORITY BT FREQ WLAN ACTIVE BI CLK REQ GND CLK REQ OUT VDD1 8 VDD1 8 DVDD SOCI CHIP PWD L HMODEO HMODE1 CPU_WARM_RESET GND ANTE GND GND GND GND GND Laird Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide MECHANICAL SPECIFICATIONS 11 00 0 10 11 00
4. 0 10 0 38 0 05 1 28 0 10 Units are millimeters 11 6 o 5 8 e S SION P aui Pin E Senet EHE SE lt ss ssts E ETETE T 11 N Host device footprint top view e SiP bottom view Figure 7 Mechanical Drawings Note The following information results from Laird s experience in producing the SDC SSD45N Laird provides these data for informational purposes only and provides no warranties or claims with regard to the applicability of this information to a particular design Embedded Wireless Solutions Support 19 Laird Center http ews support lairdtech com Americas 4 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide 11 UUUUUDDUUU UU Cc D0000 noogod Ooooc Ld LJ Cc C ooo000 Ld 3 JUDUL URDU UUA 116 Foot Print B ppt j b S Figure 8 Recommended footprint top view Solder Stencil Opening for Pads 56 signal pads 1 1 to 1 0 9 dependent on solder type Solder Stencil Opening for Thermal Pads 9 window pane pads 1 0 5 to 1 0 75 dependent on solder type Note The ground vias that are in the thermal pad 6x6 pattern of 12 mil holes are open they are not tented by the solder mask on the bottom side This allows excess paste to escape from the bottom side to help ensure a flat SIP installation
5. Adjust to get a better match between the SSD45N and the Bluetooth device SSD45 BT CLK REQ pin 44 INTERNAL BT CLK OUT pin 37 Required Clock Filtering Circuit BT XTAL P CLK Device BT CLK REQ Figure 3 Clock sharing implementation Note We recommend that the length between the SSD45N and the BT device is smaller than 1200 mil in the clock trace layout Figure 4 Note Bluetooth clock sharing filtering circuit involves three resistors and one capacitor This could be reduced to one resistor and one capacitor with future releases but it depends on the test result Figure 4 Embedded Wireless Solutions Support 15 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide BT_VDDIO SSD45 BT CLK OUT Length 1200mil e A1 Figure 4 Filtering circuit when using clock sharing CPU WARM RESET The CPU WARM RESET pin pin 53 is dedicated to wake on wireless WoW it is the hardware toggle point for WoW from the host and requires a hardware toggle input from the host Once the system and client device are placed into a low power state the client device generally remains associated with its current AP to receive and monitor incoming frames If one of the specified patterns is detected in the frame the client wakes the system by asserting a
6. 0 2 Note Standby refers to the Standby TBD TBD TBD TBD radio operating in PM1 802 11b Transmit 0 11 0 11 380 420 powersave mode Receive 0 11 0 2 Standby TBD TBD TBD TBD 802 119 Transmit 0 11 0 11 355 410 Receive 0 11 0 2 Standby TBD TBD TBD TBD 802 11n 2 4 GHz Transmit 0 11 0 11 342 420 Receive 0 11 0 2 Standby TBD TBD TBD TBD 802 11n 5 GHz Transmit 0 11 0 11 422 500 Receive 0 11 0 2 Standby TBD TBD TBD TBD Sleep N A TBD TBD TBD TBD Operating Temperature Operating Humidity Storage Temperature Storage Humidity Maximum Electrostatic Discharge 20 to 70 C 4 to 158 F 10 to 9596 non condensing 40 to 85 C 40 to 185 F 10 to 95 non condensing Maximum Contact Discharge CD 4 kV Maximum Air Discharge AD 8 kV Length Width Thickness 11 0 mm x 11 0 mm x 1 3 mm with shield with a tolerance of 0 1 mm at each axis Weight Wi Fi Media Direct Sequence Spread Spectrum DSSS Wi Fi Media Access Protocol Network Architecture Types Wi Fi Standards Wi Fi Data Rates Supported Wi Fi Modulation 802 11n Spatial Streams Complementary Code Keying CCK Orthogonal Frequency Divisional Multiplexing OFDM Carrier sense multiple access with collision avoidance CSMA CA Infrastructure and ad hoc IEEE 802 11a 802 11b 802 11d 802 11e 802 119 802 11h 802 111 802 11n 802 11a OFDM 6 9 12 18 24 36 48 54 Mbps 802 11b DSSS CCK 1 2 5 5 11 Mbps 802 11g OFDM 6 9 1
7. 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide I O bus voltage 33 VDD IO configuration Either 3 3 Vor 1 8 V Must be connected 34 GND Ground to GND 35 CLK 32K Optional External 32kHz clock input Must be connected 36 GND Ground to GND 37 BT CLK OUT O Reference clock output to wo Connect to BT chip Must be connected 38 GND Ground to GND 39 BT_RX_FRAME Optional software GPIO 40 BT_ACTIVE Hi Z e Asserted for BT TX RX No Connect 41 BT_PRIORITY Hi Z VDD Priority of BT transmission a Coane O and direction TX or RX 42 BT FREQ BT FREQUENCY signal from T E BT chip Decision of coexistence logic for BT frame 43 WL LED ACTIVE O Low A logic high indicates BT to Connect stop transmission A logic low allows BT to continue with TX RX Clock request signal from Must be connected us Bt Sonn BT chip to GND Must be connected A5 GND Ground to GND CLK REQ signal indicating 46 CLK REQ OUT O when a reference clock is needed 47 VDD1 8 1 8V power supply 48 VDD1_8 1 8V power supply 49 DVDD_SOC1 GPIO Input signal to power down 50 CHIP PWD L Pull H VDD_ the module me low O See Note Regarding CHIP PWD L Select the host interface SDIO 51 HMODEO HMO High HM1 high GSPI 52 HMODE1 HMO Low HM1 High 53 CPU_WARM_RESET O Optional Wake On Wireless output
8. Must be connected 4 GND Ground to GND Must be connected 5 GND Ground to GND Must be connected 6 GND Ground to GND Must be connected 7 GND Ground to GND Must be connected 8 GND Ground to GND 9 VDD3 3 3 3 V module power 10 TMS High iss Ls Mode Select No Connect Input 11 TDI High JTAG Test Data In input No Connect TDOANLAN 12 UART TXD O High JTAG Test Data Out output No Connect 13 TCK High JTAG Test Clock input No Connect Must be connected 14 GND Ground to GND Must be connected 15 GND Ground to GND DVDD_ Output for debug message 16 DEBUG_UART_TXD O Hi Z SOC2 P eto dad No Connect 17 NC No Connect 18 NC No Connect 19 NC No Connect 20 VDD3 3 3 3 V module power Must be connected 21 GND Ground to GND 22 SDIO CLK Hi Z icis SDIO clock VDD oa 23 SDIO DATA 1 I O Pull H O SDIO data pin bit 1 VDD_ T 24 SDIO DATA O0 I O Pull H O SDIO data pin bit O 25 SDIO CMD I O Pull H n SDIO command VDD_ as 26 SDIO_DATA_2 I O Pull H O SDIO data pin bit 2 VDD 27 SDIO DATA 3 I O Pull H O SDIO data pin bit 3 Must be connected 28 GND Ground to GND 29 VCC3 3 3 3 V module power Must be connected 30 GND Ground to GND 3 VDD3_3 3 3 V module power 32 VDD3_3 3 3 V module power Embedded Wireless Solutions Support 12 Laird Center http ews support lairdtech com www lairdtech com wireless Americas 1 800 492 2320 Europe
9. of article 3 2 of the R amp TTE Directive EN 301 489 1 V1 9 2 2011 Electromagnetic compatibility and Radio spectrum Matters ERM ElectroMagnetic Compatibility EMC standard for radio equipment and services Part 1 Common technical requirements EN 301 489 17 V2 2 1 2012 Electromagnetic compatibility and Radio spectrum Matters ERM ElectroMagnetic Compatibility EMC standard for radio equipment Part 17 Specific conditions for Broadband Data Transmission Systems This device is a 2 4 GHz wideband transmission system transceiver intended for use in all EU member states and EFTA countries except in France and Italy where restrictive use applies In Italy the end user should apply for a license at the national spectrum authorities in order to obtain authorization to use the device for setting up outdoor radio links and or for supplying public access to telecommunications and or network services This device may not be used for setting up outdoor radio links in France and in some areas the RF output power may be limited to 10 mW EIRP in the frequency range of 2454 2483 5 MHz For detailed information the end user should contact the national spectrum authority in France Embedded Wireless Solutions Support 28 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide ts Gesky Jm no vyro
10. or BB processor and fully integrated dual band radio transceiver To maximize operational range the SSD45N incorporates external 2 4 and 5 GHz power amplifiers PA to increase transmit power The frequency stability for both 2 4 GHz 802 11b and 802 119 and 5 GHz 802 112 operation is 20 ppm The SSD45N has its own RF shielding and does not require shielding provided by the host device into which it is installed in order to maintain compliance with applicable regulatory standards As such the device may be tested in a standalone configuration via an extender card The device buffers all data inputs so that it will comply with all applicable regulations even in the presence of over modulated input from the host device Similarly the SSD45N incorporates power regulation to comply with all applicable regulations even when receiving excess power from the host device The SSD45N combines the 2 4 and 5 GHz signal path to signal U FL type antenna connectors to support dual band transmission and receive An antenna diversity function is NOT supported in this product Supported host device antenna types include dipole and monopole antennas Regulatory operational requirements are included with this document and may be incorporated into the operating manual of any device into which the SSD45N is installed The SSD45N is designed for installation into mobile devices such as vehicle mount data terminals which typically operate at distances greater tha
11. 2 18 24 36 48 54 Mbps 802 11n OFDM HT20 MCS 0 7 6 5 13 19 5 26 39 52 58 5 72 2 Mbps 7 2 14 4 21 7 28 9 43 3 57 8 65 Mbps BPSK Q 1 6 6 5 7 2 and 9 Mbps QPSK 2 5 5 11 12 13 14 4 18 19 5 and 21 7 Mbps 16 QAM Q 24 26 28 9 36 39 and 43 3 Mbps 64 QAM Q 48 52 54 57 8 58 5 65 and 72 2 Mbps 1x1 SISO Single Input Single Output m AN Laird Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Embedded Wireless Solutions Support 6 Center http ews support lairdtech com www lairdtech com wireless Laird SSD45N Hardware Integration Guide Regulatory Domain Support FCC Americas Parts of Asia and Middle East ETSI Europe Middle East Africa and Parts of Asia 2 4 GHz Frequency Bands 2 4 GHz Operating Channels 5 GHz Frequency Bands 5 GHz Operating Channels Transmit Power Note Transmit power varies according to individual country regulations All values nominal 2 dBm Laird 45 series radios support a single Spatial stream and 20 MHz wide channels Note MIC Japan formerly TELEC KC Korea formerly KCC ETSI 2 4 GHz to 2 483 GHz FCC 2 4 GHz to 2 483 GHz MIC Japan 2 4 GHz to 2 495 GHz KC 2 4 GHz to 2 483 GHz ETSI 13 3 non overlapping FCC 11 3 non overlapping ETSI 5 15 GHz to 5 35 GHz 5 47 GHz to 5 725 GHz FCC 5 15 GHz to 5 35 GHz 5 725 GHz to 5 82 GHz ETSI 19 non overlapping FCC 23 non overlapping 802 11a
12. 6 Mbps 54 Mbps 802 11b 1 Mbps 11 Mbps 802 119 6 Mbps 54 Mbps 802 11n 2 4 GHz MIC Japan 14 4 non overlapping KCC 13 3 non overlapping MIC 5 15 GHz to 5 35 GHz KC 5 15 GHz to 5 35 GHz 5 47 GHz to 5 725 GHz 5 25 GHz to 5 82 GHz MIC 8 non overlapping KC 8 non overlapping 15 dBm 32 mW 15 dBm 32 mW 16 dBm 40 mW 16 dBm 40 mW 16 dBm 40 mW 14 dBm 25 mW 16 dBm 40 mW 802 11n 5 GHz 6 5 Mbps MCSO 65 Mbps MCS7 6 5 Mbps MCSO 65 Mbps MCS7 12 dBm 16 mW 15 dBm 32 mW 12 dBm 16 mW only Typical Receiver Sensitivity 802 112 6 Mbps 91 dBm 54 Mbps 73 dBm PER lt 10 Note All values nominal 802 11b 1 Mbps 92 dBm 3 dBm 11 Mbps 84 dBm PER lt 10 802 119 6 Mbps 91 dBm 54 Mbps 74 dBm PER lt 10 802 11n 2 4 GHz MCSO Mbps 89 dBm MCS7 Mbps 71 dBm 802 11n 5b GHz MCSO Mbps 89 dBm MCS7 Mbps 71 dBm Operating Systems Android Linux Windows CE and Windows Mobile NDIS5 Supported Security Standards Wireless Equivalent Privacy WEP Wi Fi Protected Access WPA IEEE 802 111 WPA2 Note Support for Federal Information Processing Standards FIPS is pending Embedded Wireless Solutions Support Fi Laird Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Center http ews support lairdtech com www lairdtech com wireless Laird SSD45N Hardware Integration Guide Encryption Wireless Equivalent Privacy WEP RC4 Algorithm T
13. Laird gt LAIRD SSD45N Hardware Integration Guide Version 1 3 global local Embedded Wireless Solutions Support Center http ews support lairdtech com Americas 1 800 492 2320 Option 2 Europe 44 1628 858 940 Asia 852 2923 0610 www lairdtech com wireless Laird SSD45N Hardware Integration Guide REVISION HISTORY 1 0 23 July 2014 Initial Release Andrew Chen Added note to SDIO Timing Requirements n Se LE regarding SDIO bus clock rate STIR CER 1 2 26 Mar 2015 Fixed Operational Temperature numbers Andrew Chen 1 3 15 Oct 2015 Updated Antenna Data Sheet links Sue White Embedded Wireless Solutions Support 2 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide CONTENTS Lara SDA een eee nen ee 1 ROVISIOR HISTO c t P 2 OS NS acto terre tart T ee 3 COP a cite S 4 DDC TO ED SCO Emm 4 BOCK DIGI GUN EE yachasthestenunbeseonauennuoee 5 SOC ONS eters eee ea ct TR 5 Recommended Operating Conditions and DC Electrical Characteristics cccccssseeeceseeeeeeeseeeeeeeseeeees 9 DC zai eG reae RET m chen id none 10 General DC Electrical Characteristics 3 3V
14. Must be connected 54 GND Ground to GND Antenna 55 ANTE O Control signal for RF front end component Embedded Wireless Solutions Support 13 Laird Center http ews support lairdtech com www lairdtech com wireless Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Must be connected to GND Must be connected to GND Must be connected to GND Must be connected to GND Must be connected to GND 56 GND Ground 57 GND Ground 58 GND Ground 59 GND Ground 60 GND Ground Signal Names and Signal Types NC No connection should be made to this pin _L At the end of the signal name indicates active low signals Signal Name p At the end of the signal name indicates the positive side of a differential signal N At the end of the signal name indicates the negative side of a differential signal OH A digital bidirectional signal with a weak internal pull up VOL A digital bidirectional signal with a weak internal pull down Signal Types OA An analog output signal O A digital output signal P A power or ground signal Reference Clock Sleep Clock and Clock Sharing The Laird SSD45N has a built in 26 MHz clock and a 32 768 KHz sleep clock an additional external reference clock is unnecessary Be sure to ground pin 35 to enable the internal sleep clock The SSD45N can provide a buffere
15. amp 1 8V 1 O operation isssssssssssm eee 10 SWO TRIED ere eU Es MIS dU ne en ee Den 11 Por DETNI Tm 11 Signal Names and Signal Types 14 Reference Clock Sleep Clock and Clock SAT nn hc pese paw S Enid nomm es nn 14 GPU WARM_RESET E 16 Reset and Power OO TO ee de 17 SSDAONBT and SSD4SN Pin Comparison TAPIE tee tricia ten etelaneaii ondenlainicuiusataionsietennaepiuniaieieenengmewntueass 18 M ch nical SDECITICATIONSS E TE o OE DO a mcm 19 R GO RS Gl 15 9 8 HN le 20 RF Layout Design E CIVITe ATIS SE TEES 21 Rerisrence 5 io fl ail ne ne au gie ee ti UU DELE ME 23 ROC ONE a E E E E 24 EEEN E A E E E E E E E E 24 D c mentation 9 UTE s DR seen ee nner moo 24 FCC 24 OS 26 0 O M N ne Ode ii ee ii 26 D RB E MCTTE 28 Embedded Wireless Solutions Support 3 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide SCOPE This document describes key hardware aspects of the Laird SSD45N radio module This document is intended to assist device manufacturers and related parties with the integration of this radio into their host devices Data in this document is drawn from a number of sources and includes information found in the Qualcomm Atheros QCA AR6003 data sheet issued in January 2010 along with other documents provided from Qual
16. ator is still responsible for testing their end product for any additional compliance requirements required with this module installed IMPORTANT NOTE In the event that these conditions cannot be met for example certain laptop configurations or co location with another transmitter then the FCC authorization is no longer considered valid and the FCC ID cannot be used on the final product In these circumstances the OEM integrator is responsible for re evaluating the end product including the transmitter and obtaining a separate FCC authorization End Product Labeling This transmitter module is authorized only for use in device where the antenna is installed such that 20 cm is maintained between the antenna and users The final end product must be labeled in a visible area with the following Contains FCC ID SQG SSD45N Manual Information to the End User The OEM integrator may NOT provide information to the end user regarding how to install or remove this RF module in the user s manual of the end product which integrates this module The end user manual shall include all required regulatory information warnings as show in this Hardware Integration Guide Industry Canada Note You must place Contains IC ID 3147A SSD45N on the host product in such a location that it can be seen by an operator at the time of purchase User s Guide Requirements for Model SSD45N RF Radiation Hazard Warning To ensure co
17. bce timto prohla uje Ze tento tyo zafizeni je ve shod se z kladn mi Czech po adavky a dal mi p slu n mi ustanoven mi sm rnice 1999 5 ES dal Dansk Undertegnede fabrikantens navn erkl rer herved at f lgende udstyr udstyrets Danish typebetegnelse overholder de v sentlige krav og vrige relevante krav i direktiv 1999 5 EF de Deutsch Hiermit erkl rt Name des Herstellers dass sich das Ger t Ger tetyo in German bereinstimmung mit den grundlegenden Anforderungen und den brigen einschl gigen Bestimmungen der Richtlinie 1999 5 EG befindet Eesti K esolevaga kinnitab tootja nimi name of manufacturer seadme seadme t p Estonian type of equipment vastavust direktiivi 1999 5 EU p hin uetele ja nimetatud direktiivist tulenevatele teistele asjakohastele s tetele English Hereby name of manufacturer declares that this tyoe of equipment is in compliance with the essential requirements and other relevant provisions of Directive 1999 5 EC les Espa ol Por medio de la presente nombre del fabricante declara que el clase de equipo Spanish cumple con los requisitos esenciales y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999 5 CE EAAnvikd ME THN l IAPOY2A name of manufacturer NHAONEI OTI tyve of equipment Greek 2 YMMOPQOONETAI NPOZ TIX OYZIOAEI2 ATIAITHXEI2 KAI TI AOITIEX 2 XETIKEX AIATAZEI2 THX OAHTIAZ 1999 5 EK ir Francais Par la pr sente no
18. ch com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026
19. comm Atheros The information in this document is subject to change Please contact Laird Technologies or visit http www lairdtech com wireless to obtain the most recent version of this document OPERATIONAL DESCRIPTION This device is a Laird SSD45N radio module which supports IEEE 802 11a b g n standards via an SDIO Secure Digital Input Output interface The radio operates in unlicensed portions of the 2 4 GHz and 5 GHz radio frequency spectrum The device is compliant with IEEE 802 1128 802 11b 802 119 and 802 11n standards using Direct Sequence Spread Spectrum DSSS and Orthogonal Frequency Division Multiplexing OFDM The device supports all 802 11a 802 116 802 119 and 802 11n data rates and automatically adjusts data rates and operational modes based on various environmental factors When operating on channels in the UNII 2 and UNII 2 Extended bands that are in the 5GHz portion of the frequency spectrum and are subject to Dynamic Frequency Selection requirements the SSD45N fully conforms to applicable regulatory requirements In the event that specified types of radar are detected by the network infrastructure the SSD45N fully conforms to commands from the infrastructure for radar avoidance The SSD45N is a System in Package SIP Quad Flat pack No leads QFN module The device is based on the Qualcomm Atheros AR6003 chip which is an integrated device providing a Media Access Controller MAC a Physical Layer Controller baseband
20. d Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide SDIO Timing Requirements The following figure Figure 2 and table Table 6 display SDIO default mode timing Note The SDIO bus should not exceed a 25 MHz clock rate CLK LN Ll H lt gt lt gt Tisu EE co yj Tm Tru Input CMD DAT Output CMD DAT Toniv Ton Figure 2 SDIO Default Mode Timing Note Timing is based on CL lt 40 pF load on CMD and Data Table 6 SDIO Timing Requirements fPP Frequency Data Transfer mode 0 50 MHz tWL Clock low time 7 ns tWH Clock high time 7 ns tTLH Clock rise time 10 ns tTHL Clock low time 10 ns Inputs CMD DAT referenced to CLK tlSU Input setup time 6 ns tlH Input hold time 2 ns Outputs CMD DAT referenced to CLK tODLY Output delay time Data Transter mode 0 14 ns PIN DEFINITIONS Table 6 Pin Definitions Embedded Wireless Solutions Support 11 Laird Center http ews support lairdtech com www lairdtech com wireless Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Must be connected 1 GND Ground to GND 5 RF IN OUT VO i RF signal for transmission and receiving Must be connected 3 GND Ground to GND
21. d antenne Les types d antenne non inclus dans cette liste ou dont le gain est sup rieur au gain maximal indiqu sont strictement interdits pour l exploitation de l metteur Embedded Wireless Solutions Support 26 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Le pr sent appareil est conforme aux CNR d Industrie Canada applicables aux appareils radio exempts de licence L exploitation est autoris e aux deux conditions suivantes 1 l appareil ne doit pas produire de brouillage et 2 l utilisateur de l appareil doit accepter tout brouillage radio lectrique subi m me si le brouillage est susceptible d en compromettre le fonctionnement This device is intended only for OEM integrators under the following conditions The antenna must be installed such that 20 cm is maintained between the antenna and users and The transmitter module may not be co located with any other transmitter or antenna As long as 2 conditions above are met further transmitter test will not be required However the OEM integrator is still responsible for testing their end product for any additional compliance requirements required with this module installed Cet appareil est concu uniquement pour les int grateurs OEM dans les conditions suivantes antenne doit tre install e de telle sorte qu u
22. d reference clock 26 MHz output at pin 37 This clock can be used to drive other system components such as a Bluetooth device which can significantly reduce BOM cost and size Clock sharing implementation is available when the WLAN software is downloaded Figure 3 To enable this the following must be done Connect BT CLK REQ on the Bluetooth circuit to BT CLK REQ pin 44 on the SSD45N Connect BT CLK OUT pin 37 on the SSD45N to the Bluetooth circuit clock input CLK REQ OUT pin 46 can be ignored with No Connect NC All power supplies must be present when using clock sharing Clock sharing is available in both sleep and normal operating modes once the software is downloaded A filter is required for SSD45N clock output to reduce spurs in the Bluetooth device RF output and to improve the modulation index Figure 4 You can use a DC coupled or AC coupled clock depending on the requirements of your Bluetooth device When DC coupled is used we recommend the following R3 10ohm 1 68pF Embedded Wireless Solutions Support 14 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide R2 0ohm R1 Remove When AC coupled is used we recommend the following R3 Change to a capacitor 1 Change to a resistor R1 and C1 Adjust to get required DC bias point R2
23. e where the antenna may be installed such that 20 cm may be maintained between the antenna and users The final end product must be labeled in a visible area with the following Contains IC Plaque signal tique du produit final Ce module metteur est autoris uniquement pour une utilisation dans un dispositif ou l antenne peut tre install e de telle sorte qu une distance de 20cm peut tre maintenue entre l antenne et les utilisateurs Le produit final doit tre tiquet dans un endroit visible avec l inscription suivante Contient des IC Manual Information To the End User The OEM integrator has to be aware not to provide information to the end user regarding how to install or remove this RF module in the user s manual of the end product which integrates this module The end user manual shall include all required regulatory information warning as show in this manual Embedded Wireless Solutions Support 27 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Manuel d information l utilisateur final L int grateur OEM doit tre conscient de ne pas fournir des informations l utilisateur final quant la facon d installer ou de supprimer ce module RF dans le manuel de l utilisateur du produit final qui int gre ce module Le manuel de l utilisateur final doit inclure tout
24. ed indoors for the frequency range 5 15 to 5 25 GHz to reduce the potential for harmful interference to co channel Mobile Satellite systems This device does not permit operations on channels 116 128 5580 5640 MHz for 11na and 120 128 5600 5640 MHz for 11a which overlap the 5600 5650 MHz band IMPORTANT NOTE FCC Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment This equipment should be installed and operated with minimum distance 20cm between the radiator amp your body This device is intended only for OEM integrators under the following conditions The antenna must be installed such that 20 cm is maintained between the antenna and users and The transmitter module may not be co located with any other transmitter or antenna For all products marketed in the United States the OEM must limit the operation channels from CH1 to CH11 for 2 4 GHz band by the supplied firmware programming tool The OEM shall not Supply any tool or information to the end user regarding Regulatory Domain change Embedded Wireless Solutions Support 25 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide As long as the three conditions above are met further transmitter testing is not required However the OEM integr
25. emporal Key Integrity Protocol TKIP RC4 Algorithm Advanced Encryption Standard AES Rijndael Algorithm Encryption Key Provisioning Static 40 bit and 128 bit lengths Pre Shared PSK Dynamic 802 1X Extensible Authentication Protocol Types EAP FAST PEAP MSCHAPv2 EAP TLS PEAP TLS EAP TTLS LEAP PEAP GTC Compliance ETSI Regulatory Domain EN 300 328 Note All certifications are EN 301 489 1 penama EN 301 489 17 EN 301 893 EN 60950 1 EN 62311 EU 2002 95 EC RoHS FCC Regulatory Domain FCC 15 247 DTS 802 11b g Wi Fi 2 4 GHz amp 5 8 GHz FCC 15 407 UNII 802 11a Wi Fi 2 4 GHz amp 5 4 GHz Industry Canada RSS 210 802 11a b g n Wi Fi 2 4 GHz 5 8 GHz 5 2 GHz and 5 4 GHz MIC Japan Regulatory Domain formerly TELEC Note Whether or not MIC Article 2 Item 19 Category WW 2 4GHz Channels 1 13 formerly TELEC is Article 2 Item 19 2 Category GZ 2 4GHz Channel 14 pursued is TBD Article 2 Item 19 3 Category XW 5150 5250 W52 amp 5250 5350 W53 Certifications Wi Fi Alliance Iri 802 1128 802 11b 802 119 802 11n f m CERTIFIED Note These certifications WPA Enterprise are pending WPA2 Enterprise EP CISCO Cisco Compatible Extensions Version 4 Gorges Warranty Limited Lifetime All specifications are subject to change without notice Embedded Wireless Solutions Support 8 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Ko
26. es les informations r glementaires requises et avertissements comme indiqu dans ce manuel European Union User s Guide Requirements The integrator must include specific information in the user s guide for the device into which the SSD45N is integrated In addition to the required FCC and IC statements outlined above the following R amp TTE statements must be added in their entirety and without modification into a prominent place in the user s guide for the device into which the SSD45N is integrated This device complies with the essential requirements of the R amp TTE Directive 1999 5 EC The following test methods have been applied in order to prove presumption of conformity with the essential requirements of the R amp TTE Directive 1999 5 EC EN60950 1 2006 A11 A1 A12 2011 Safety of Information Technology Equipment EN 62311 2008 Article 3 1 a and Article 2 2006 95 EC Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields 0 Hz 300 GHz EN 300 328 V1 8 1 2012 06 Electromagnetic compatibility and Radio spectrum Matters ERM Wideband transmission systems Data transmission equipment operating using wide band modulation techniques Harmonized EN covering the essential requirements of article 3 2 of the R amp TTE Directive EN 301 893 V1 7 1 2012 06 Broadband Radio Access Networks BRAN 5 GHz high performance RLAN Harmonized EN covering the essential requirements
27. hardware pin Once awake the client s driver is notified of the change in power state and data connectivity with the AP is re established Because CPU WARM RESET defaults low the WoW interrupt is active high Embedded Wireless Solutions Support 16 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Reset and Power On Off Timing power up power down X Leer caca RA 3 3 V supply 1 8 V supply CHIP PWD L Ta Tr Te Ta Figure 5 Power on down timing 3 3 V supply 1 8 V supply CHIP PWD L Figure 6 Reset timing T Time between VBAT VDD33 and I O supplies valid and 1 8 V supply valid 0 Ty Time between 1 8 V supply valid and CHIP PWD L deassertion D T Time between CHIP PWD L assertion and 1 8 V supply invalid 0 Ty lime between 1 8 V supply invalid and VBAT VDD33 and I O supplies invalid N A Te Length of CHIP PWDP L pulse D 1 Supply valid represents the voltage level has reached 90 level 2 No strict requirements This parameter can also be negative Embedded Wireless Solutions Support 17 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide SSD40NBT and SSD45N Pin Comparison Table
28. he solder joint be within 240 C 250 C and the maximum component temperature should not exceed 250 C We recommend that time above 220 C for the solder joints is between 60 80 seconds and with a minimum of 50 seconds Excessive ramp cooling rates gt 3 C second should be avoided To develop the reflow profile we recommend that you place thermocouples at various locations on the assembly to confirm that all locations meet the profile requirements The critical locations are the solder joints of SiP Module We also recommend that you use the actual fully loaded assembly to account for the total thermal mass RF LAYOUT DESIGN GUIDELINES The following is a list of RF layout design guidelines and recommendation when installing a Laird radio into your device Do not run antenna cables directly above or directly below the radio Do not place any parts or run any high speed digital lines below the radio If there are other radios or transmitters located on the device such as a Bluetooth radio place the devices as far apart from each other as possible Ensure that there is the maximum allowable spacing separating the antenna connectors on the Laird radio from the antenna In addition do not place antennas directly above or directly below the radio Laird recommends the use of a double shielded cable for the connection between the radio and the antenna elements Laird has provided three plated mounting holes that can be used for ground
29. ing When additional ground plane is required you may use some or all of these grounded mounting holes Use proper electro static discharge ESD procedures when installing the Laird radio module For system schematic relative module please don t put via on module s pad To avoid void occupy on solder paste pad Need to place enough ground via under the SSD45NBT Embedded Wireless Solutions Support 21 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Wrong Via Note Do not use the vias on the pads of the module CLLLELELLEEEREL Figure 9 Module footprint Important The landing pad of the U FL connector will cause induced capacitor when the distance to the reference ground plan is less than 10 mils This will decrease the RF performance on 5GHz It is must to remove the ground plan in the inner layer Be sure to make the reference ground continuous Figure 10 Top layer left and inner layer layer 2 right Location of the decoupling capacitor As shown on Figure 10 the bypass capacitor should be placed as recommended AVDD18 ovoo soci p BIO Keep the power pin bypass capacitors as close as possible Ground vias placed beside L4 a Em bypass capacitors 1 1 Ww BENENN VDD3_3 HE Bm B E E B
30. m du fabricant d clare que l appareil tyoe d appareil est French conforme aux exigences essentielles et aux autres dispositions pertinentes de la directive 1999 5 CE Lit Italiano Con la presente nome del costruttore dichiara che questo tipo di aoparecchio Italian conforme ai requisiti essenziali ed alle altre disposizioni pertinenti stabilite dalla direttiva 1999 5 CE Latviski Arso name of manufacturer izgatavotajanosaukums deklar ka tyoe of equipment Latvian lekartas tipsjatbilstDirektivas 1999 5 EK b tiskajamprasrbam un citiemar to saistitajemnoteikumiem Lietuviy iuo manufacturer name deklaruoja kad is eguioment type atitinka esminius Lithuanian reikalavimus ir kitas 1999 5 EB Direktyvos nuostatas nl Nederlands Hierbij verklaart naam van de fabrikant dat het toestel tyoe van toestel in Dutch overeenstemming is met de essenti le eisen en de andere relevante bepalingen van richtlijn 1999 5 EG nt Malti Hawnhekk isem tal manifattur jiddikjara li dan muae ta orodott jikkonforma Maltese mal ti ijiet essenzjali u ma provvedimenti o rajn relevanti li hemm fid Dirrettiva 1999 5 EC hul Magyar Alul rott gy rt neve nyilatkozom hogy a tfousimegfelel a vonatkoz alapvet Hungarian k vetelm nyeknek s az 1999 5 EC ir nyelv egy b el r sainak Le Polski Niniejszym nazwa producenta o wiadcza ze nazwa wyrobu jest zgodny z Polish zasadniczymi wymogami oraz p
31. mpliance with FCC and Industry Canada RF exposure requirements this device must be installed in a location where the antennas of the device will have a minimum distance of at least 20 cm from all persons Using higher gain antennas and types of antennas not certified for use with this product is not allowed The device shall not be co located with another transmitter Installez l appareil en veillant conserver une distance d au moins 20 cm entre les l ments rayonnants et les personnes Cet avertissement de s curit est conforme aux limites d exposition d finies par la norme CNR 102 at relative aux fr quences radio Maximum Antenna Gain If the integrator configures the device such that the antenna is detectable from the host product This radio transmitter identify the device by certification number or model number if Category Il has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain and required antenna impedance for each antenna type indicated Antenna types not included in this list having a gain greater than the maximum gain indicated for that type are strictly prohibited for use with this device Antenna list refer to Certified Antennas Le pr sent metteur radio IC XXXXX XXXXXXXXX a t approuv par Industrie Canada pour fonctionner avec les types d antenne num r s ci dessous et ayant un gain admissible maximal et l imp dance requise pour chaque type
32. n 20 cm from the human body and portable devices such as handheld data terminals which typically operate at distances less than 20 cm from the human body See Documentation Requirements for more information Embedded Wireless Solutions Support 4 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide BLOCK DIAGRAM 802 11 a b g n Wi Fi SIP UFL Connector LDO Figure 1 SSD45 Block Diagram Note Transmitter frequencies for Wi Fi are 2412 2462 MHz and 5180 5805 MHz SPECIFICATIONS Table 1 Specifications Physical Interface QFN package Wi Fi Interface 1 bit or 4 bit Secure Digital I O Note Can support 1 8 V or 3 3 V depending on the supply voltage on DVDD SDIO Antenna Interface 50 ohm RF impedance Main Chip Qualcomm Atheros AR6003 single chip client Input Voltage Requirements 3 3 VDC 5 core I O Signalling Voltage 3 3 VDC 5 1 8 VDC 5 Embedded Wireless Solutions Support 5 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Average Current Mode 1 8V 3 3 V Consumption Avg Max Avg Max At maximum transmit Current Current Current E m power setting 802 11a Transmit 0 11 0 11 496 500 Receive 0 11
33. ne distance de 20 cm est respect e entre l antenne et les utilisateurs et Le module metteur peut ne pas tre coimplant avec un autre metteur ou antenne Tant que les 2 conditions ci dessus sont remplies des essais suppl mentaires sur l metteur ne seront pas n cessaires Toutefois l int grateur OEM est toujours responsable des essais sur son produit final pour toutes exigences de conformit suppl mentaires requis pour ce module install IMPORTANT NOTE In the event that these conditions cannot be met for example certain laptop configurations or co location with another transmitter then the Canada authorization is no longer considered valid and the IC ID can not be used on the final product In these circumstances the OEM integrator will be responsible for re evaluating the end product including the transmitter and obtaining a separate Canada authorization NOTE IMPORTANTE Dans le cas o ces conditions ne peuvent tre satisfaites par exemple pour certaines configurations d ordinateur portable ou de certaines co localisation avec un autre metteur l autorisation du Canada n est plus consid r comme valide et l ID IC ne peut pas tre utilis sur le produit final Dans ces circonstances l int grateur OEM sera charg de r valuer le produit final y compris l metteur et l obtention d une autorisation distincte au Canada End Product Labeling This transmitter module is authorized only for use in devic
34. ng 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide RECOMMENDED OPERATING CONDITIONS AND DC ELECTRICAL CHARACTERISTICS Table 2 Absolute Maximum Ratings VDD3_3 VDD1_8 DVDD_SDIO DVDD_SOC1 DVDD SOC2 Voltage Ripple RFin Power supply voltage with respect to ground Power supply voltage with respect to ground Power supply voltage with respect to ground Power supply voltage with respect to ground Power supply voltage with respect to ground 2 10 KHz 100KHz maximum values not exceeding operating voltage Maximum RF input references to 50 ohm Table 3 Recommended Operating Conditions 0 3 0 3 0 3 0 3 0 3 4 0 V 2 5 V 4 0 V 4 0 V 4 0 V 2 10 dBm VDD3_3 Power supply voltage with respect to ground 3 14 3 3 3 46 V VDD1 8 Power supply voltage with respect to ground 1 71 1 8 1 89 V DVDD SDIO Power supply voltage with respect to ground 1 71 3 46 V DVDD SOC Power supply voltage with respect to ground 1 71 3 46 V DVDD SOC2 Power supply voltage with respect to ground 1 71 3 46 V Note VDD_IO is a voltage from the host platform to configure the I O signal level It can be set 1 8 V or De y Embedded Wireless Solutions Support 9 Laird Center http ews support lairdtech com www lairdtech com wireless Americas 1 800 492 2320 Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide DC ELECTRICAL CHARACTERISTICS General DC Electrical Cha
35. on requirements set forth by the applicable regulatory agencies The following sections FCC Industry Canada and European Union outline the information that may be included in the user s guide and external labels for the host devices into which the SSD45N is integrated FCC Note You must place Contains FCC ID SQG SSD45N on the host product in such a location that it can be seen by an operator at the time of purchase User s Guide Requirements When integrating the SSD45N into a host device the integrator must include specific information in the user s guide for the device into which the SSDA5N is integrated The integrator must not provide information to the end user regarding how to install or remove this RF module in the user s manual of the device into which the SSDA5N is integrated The following FCC statements must be added in their entirety and without modification into a prominent place in the user s guide for the device into which the SSD45N is integrated Embedded Wireless Solutions Support 24 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Federal Communication Commission Interference Statement 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 reas
36. onable 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 However 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 the user is encouraged to try to correct the interference by one of the following measures 1 Reorient or relocate the receiving antenna 2 Increase the separation between the equipment and receiver 3 Connect the equipment into an outlet on a circuit different trom that to which the receiver is connected 4 Consult the dealer or an experienced radio TV technician for help FCC Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate this equipment This device complies with Part 15 of the FCC Rules 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 This device is restricted to indoor use when operated in the 5 15 to 5 25 GHz frequency range FCC requires this product to be us
37. ozostalymi stosownymi postanowieniami Dyrektywy 1999 5 EC et Portugu s Nome do fabricante declara que este tipo de equipamento esta conforme com os Portuguese requisitos essenciais e outras disposic es da Directiva 1999 5 CE Embedded Wireless Solutions Support 29 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdtech com wireless Europe 44 1628 858 940 Hong Kong 852 2268 6567 x026 Laird SSD45N Hardware Integration Guide Slovensko Ime proizvajalca izjavlja da je ta tio opreme v skladu z bistvenimi zahtevami in Slovenian ostalimi relevantnimi dolo ili direktive 1999 5 ES Slovensky Menowrobcuf ymtovyhlasuje ze tyozariadeniakplhazakladn poziadavky a Slovak vSetkypr slusn ustanoveniaSmernice 1999 5 ES Suomi Valmistaja manufacturer vakuuttaa t ten ett type of equipment laitteen Finnish tyyppimerkint tyyppinen laite on direktiivin 1999 5 EY oleellisten vaatimusten ja sit koskevien direktiivin muiden ehtojen mukainen l Svenska H rmed intygar f retag att denna utrustningstyp st r verensst mmelse med de Swedish v sentliga egenskapskrav och vriga relevanta best mmelser som framg r av direktiv 1999 5 EG Labeling Requirements The final end product must be labeled in a visible area with the following notice Embedded Wireless Solutions Support 30 Laird Center http ews support lairdtech com Americas 1 800 492 2320 www lairdte
38. racteristics 3 3V amp 1 8V I O operation Table 4 and Table 5 list the general DC electrical characteristics over recommended operating conditions unless otherwise specified Table 4 General DC electrical characteristics for 3 3 V VO operation Vin High Level Input Voltage VIL Low Level Input Voltage Without pull up or pull down Input lit Leakage With pull up Current With pull down VoH High Level Output Voltage VoL Low Level Output Voltage Table 5 General DC electrical characteristics For 1 8 V VO operation Viu High Level Input Voltage VIL Low Level Input Voltage Without pull up or pull down Input liL Leakage With pull up Current With pull down VoH High Level Output Voltage VoL Low Level Output Voltage Embedded Wireless Solutions Support Center http ews support lairdtech com www lairdtech com wireless 0 V lt Vin lt Vpp OV lt Vout lt Vpp O V lt Vin lt Vpp 0 V lt Vout lt Vpp 0 V lt ViN lt Vpp OV lt Vout lt Vpp lou 4 mA lou 12 mA lou 2 4 mA lou 12 mA 0 V lt Vin lt Vpp OV lt Vout lt Vpp 0 V lt Vin lt Vpp 0 V Vout Vpp 0 V lt Vin lt Vpp OV lt Vout lt Vpp lou 4 mA lou 2 12 mA lou 2 4 mA lou 12 mA 0 7 X Vpp TBD 16 14 0 9 x VDD 09x VDD 0 7 X VDD TBD 3 5 6 2 0 9 x VDD 0 9 x VDD 3 nA 48 uA 47 UA V V z 0 1x VDD V a 0 1 x VDD V TBD V 3 nA 13 UA 23 UA Lair
39. rovals for the SSD45N Laird has regulatory approvals for the MSD45N which is a PCB module that is based on the SSD45N As such the ETSI FCC and Industry Canada final test reports for the MSD45N may be leveraged when pursuing approvals for host devices that incorporate the SSD45N MSD45N tests were conducted with the following antennas MAG LAYERS EDA 1513 25GR2 B2 CY Dipole NA EOD E Jack Reverse MAG LAYERS PCA 4606 2G4C1 A13 CY PCB Dipole TNOV 2 2 dBi 2 4 2 5 GHz 2 dBi Laird NanoBlade IPOA PCB Dipole IPEX MHF 5 15 5 35 GHz 3 9 dBi 5 6 GHz 4 dBi 7 2 4 GHz 2 79 dBi Laird MAF95310 Mini NanoBlade Flex PCB Dipole IPEX MHF EEE 5 GHz 3 38 dBi Laird NanoBlue IPOA PCB Dipole IPEX MHF 2 5 GHz only 2 dBi 2 4 2 5 GHz 2 dBi i 4 9 5 1 GHz 3 5 dBi Ethertronics WLAN 1000146 ene SEC m MEME IEEE Dipole 5 15 5 35 GHz 3 5 dBi 5 7 5 9 GHz 3 5 dBi Antennas of differing types and higher gains may be integrated as well If necessary with the Laird Manufacturing Utility software utility OEMs may reduce the transmit power of the SSD45N to account for higher antenna gain In some cases OEMs may be able to reduce certification efforts by using antennas that are of like type and equal or lesser gain to the above listed antennas Documentation Requirements In order to maintain regulatory compliance when integrating the Laird SSD45N into a host device and leveraging Laird s grants and certifications it is necessary to meet the documentati
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