450-0119C

A 

_Version 1.6_ 

|**Version**|**Date**|**Notes**|**Contributors**|**Approver**|
|---|---|---|---|---|
|1.0|20 June 2017|Initial Release||Josh Bablitch|
|1.1|22 June 2017|Updated Device Markings Section||Josh Bablitch|
|1.2|6 July 2017|Added Industry Canada Statement||Josh Bablitch|
|1.3|21 Aug 2017|Added mFlexPIFA antenna information||Bill Steinike|
|1.4|9 Nov 2017|Updated Certification Section||Robert Gosewehr|
|1.5|22 Oct 2018|Updated legal statement, label info, &<br>added new part numbers||Robert Gosewehr|
|1.6|13 Nov 2019|Fixed antenna type error in Ordering|Derek Wong|Jonathan Kaye|
|||Information table (450-0185)|||



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2 © Copyright 2019 Laird. All Rights Reserved 

Doc # 330-0237 R1.6 

|1|Description........................................................................................................................................................................... 4|
|---|---|
|2|Features .............................................................................................................................................................................. 4|
|3|Applications ......................................................................................................................................................................... 4|
|4|Ordering Information ............................................................................................................................................................ 5|
|5|Module Accessories ............................................................................................................................................................ 6|
|6|Pin Descriptions ................................................................................................................................................................... 8|
|1|Electrical Specifications ....................................................................................................................................................... 9|
||1.1<br>Absolute Maximum Ratings ........................................................................................................................................ 9|
||1.2<br>Recommended Operating Conditions ........................................................................................................................ 9|
||1.3<br>General Characteristics .............................................................................................................................................. 9|
||1.4<br>DC Characteristics ................................................................................................................................................... 10|
||1.5<br>General Power Consumption ................................................................................................................................... 11|
||1.6<br>RF Characteristics - TX ............................................................................................................................................ 11|
||1.7<br>RF Characteristics – RX 1 Mbps (BLE) .................................................................................................................... 12|
||1.8<br>RF Characteristics – RX 2 Mbps (BLE5) .................................................................................................................. 12|
||1.9<br>RF Characteristics – RX 125-kbps Coded (BLE5) ................................................................................................... 13|
||1.10<br>RF Characteristics – RX 500-kbps Coded (BLE5) ................................................................................................... 13|
||1.11<br>Wakeup Timing ........................................................................................................................................................ 14|
|2|Soldering Recommendations............................................................................................................................................. 16|
|3|Cleaning ............................................................................................................................................................................ 16|
|4|Optical Inspection .............................................................................................................................................................. 16|
|5|Rework .............................................................................................................................................................................. 17|
|6|Shipping, Handling, and Storage ....................................................................................................................................... 17|
|7|Agency Certifications ......................................................................................................................................................... 17|
|8|Agency Statements ........................................................................................................................................................... 18|
|9|Europe ............................................................................................................................................................................... 20|
|10|Australia ............................................................................................................................................................................ 21|
|11|Bluetooth SIG Qualification ............................................................................................................................................... 22|
|12|Antenna Information .......................................................................................................................................................... 24|
|13|Mechanical Data ................................................................................................................................................................ 31|
|14|PCB Footprint .................................................................................................................................................................... 32|
||14.1<br>Tape and Reel Dimensions ...................................................................................................................................... 33|
|15|Device Markings ................................................................................................................................................................ 34|
||15.1<br>450-0177 and 450-0178 ........................................................................................................................................... 34|
||15.2<br>450-0194 and 450-0195 ........................................................................................................................................... 35|
|16|Contacting Laird ................................................................................................................................................................ 36|



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Doc # 330-0237 R1.6 

Laird is announcing a low-cost and low-power consumption module with all Bluetooth 5 Low Energy functionalities. 

The SaBLE-x-R2 module fully supports the single mode Bluetooth Low Energy operation and the output power can support class 2. The module provides the ability to either put your entire application into the integrated ARM Cortex M3 microcontroller. 

Need to get to market quickly? Not an expert in Bluetooth Low Energy? Need a custom antenna? Do you need help with your host board? Laird Connectivity Design Services will be happy to develop custom hardware or software or help integrate the design. Contact us at sales@lairdconnect.com or call us at 262375-4400. 

- Built-in CC2640R2F Bluetooth 5 Low Energy SystemOn-Chip (SOC) 5x5 mm RHB package with 15 GPIOs 

- 128 kB Flash/20 kB SRAM 

- RF Output Power: +5 dBm 

- RF Receive Sensitivity: -96 dBm 

- Size: 11.6 mm x 17.9 mm x 2.4 mm 

- Operating Voltage: 1.8V to 3.8V 

- Operating Temperature: -40 to +85C 

- 8.4 mA Transmit Mode (+5 dBm) 

- 7.4 mA Receive Mode 

- 1μA Standby (SRAM/CPU retention and RTC running) with quick 100 μs start up 

   - Drivers, Bluetooth Low Energy Controller, and bootloader in ROM 

   - Flexible peripheral set 

   - On board 32 KHz and 24 MHz Crystals 

   - Worldwide Acceptance: 

      - FCC (USA) 

      - IC (Canada) 

      - ETSI (Europe) 

      - Giteki (Japan) 

      - RCM (AU/NZ) 

   - BT SIG QD ID: 96853 

   - REACH and RoHS-compliant 

- 200 nA Shutdown 

- 61μA/MHz Active CPU Current 

- Consumer electronics 

- Mobile phone accessories 

- Sports and fitness equipment 

- HID applications 

- Home and building automation, lighting control, alarm and security 

- Electronic shelf labeling and proximity tags 

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4 

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Doc # 330-0237 R1.6 

_**Table 1: Orderable model numbers**_ 

|**Order Number**|**Description**|
|---|---|
|450-0177C|SaBLE-x-R2 Module, PCB Trace Antenna (Cut Tape)|
|450-0177R|SaBLE-x-R2 Module, PCB Trace Antenna (Tape & Reel)|
|450-0178C|SaBLE-x-R2 Module, External Antenna Port (Cut Tape)|
|450-0178R|SaBLE-x-R2 Module, External Antenna Port (Tape & Reel)|
|450-0184|SaBLE-x-R2 Evaluation Kit, PCB Trace Antenna|
|450-0185|SaBLE-x-R2 Development Kit, External Antenna Port|
|450-0194C|SaBLE-x-R2 Module, Non-Ferrous Shield, PCB Trace Antenna (Cut Tape)|
|450-0194R|SaBLE-x-R2 Module, Non-Ferrous Shield, PCB Trace Antenna (Tape & Reel)|
|450-0195C|SaBLE-x-R2 Module, Non-Ferrous Shield, External Antenna Port (Cut Tape)|
|450-0195R|SaBLE-x-R2 Module, Non-Ferrous Shield, External Antenna Port (Tape & Reel)|



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5 

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Doc # 330-0237 R1.6 

|**_Table 2: Module accessories_**|**_Table 2: Module accessories_**|||
|---|---|---|---|
|||**Order Number**|**Description**|
|||001-0001|2.4 GHz Dipole Antenna with Reverse Polarity|
||||SMA Connector|
|||||
|||080-0001|U.FL to Reverse Polarity SMA Bulkhead Cable|
||||105 mm|
|||001-0014|2.4 GHz FlexPIFA antenna|
|||||
|||001-0015|2.4 GHz FlexNotch Antenna|
|||001-0030|2.4 GHz Metal FlexPIFA Antenna w/U.FL Cable,|
||||100mm|



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6 

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**==> picture [363 x 257] intentionally omitted <==**

**----- Start of picture text -----**<br>
Off Module Antenna<br>(optional)<br>VCC<br>/Reset<br>Band  2<br>2 Wire<br>PCB Pass<br>JTAG<br>Trace  Filter<br>15<br>Antenna I/O<br>(optional)<br>CC2640R2F<br>32 kHz Bluetooth Low Energy (BLE)<br>Crystal System-on-Chip (SOC)<br>24 MHz<br>Crystal<br>SaBLE-x-R2 Module<br>**----- End of picture text -----**<br>


_**Figure 1: SaBLE-x-R2 module block diagram**_ 

_**Figure 2: SaBLE-x-R2 module footprint (viewed from top)**_ 

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|**_Table 3: SaBLE-x-R2 Pin Descriptions_**<br>**Module Pin**<br>**Name**<br>~~ee a~~|**_Table 3: SaBLE-x-R2 Pin Descriptions_**<br>**Module Pin**<br>**Name**<br>~~ee a~~|**_Table 3: SaBLE-x-R2 Pin Descriptions_**<br>**Module Pin**<br>**Name**<br>~~ee a~~|**_Table 3: SaBLE-x-R2 Pin Descriptions_**<br>**Module Pin**<br>**Name**<br>~~ee a~~|**I/O Type **<br>~~ee~~|**e**|**Description**|
|---|---|---|---|---|---|---|
||1||RF OUT|RF||Antenna, 50 OHMS|
||2||GND|GND||Ground|
||3||GND|GND||Ground|
||4||NC|-||No Connect(Do Not Connect)|
||5||NC|-||No Connect(Do Not Connect)|
||6||/RESET|DI||Active Low Reset. 100 kΩ Pull-up|
||7||JTAG_TCKC|DI/DIO||JTAG TCKC|
||8||JTAG_TMSC|DIO||JTAG TMSC|
||9||NC|-||No Connect(Do Not Connect)|
||10||NC|-||No Connect(Do Not Connect)|
||11||VCC|PI||Power Supplyto Module|
||12||VCC|PI||Power Supplyto Module|
||13||DIO_5/JTAG_TDO|DIO||GPIO, JTAG_TDO, LED DrivingCapability|
||14||DIO_6/JTAG_TDI|DIO||GPIO, JTAG_TDI, LED DrivingCapability|
||15||DIO_4|DIO||GPIO, ULP Sensor Interface, LED DrivingCapability|
||16||DIO_3|DIO||GPIO, ULP Sensor Interface, LED DrivingCapability|
||17||DIO_2|DIO||GPIO,ULP Sensor Interface,LED DrivingCapability|
||18||DIO_1/BOOT_RX|DIO||GPIO,ULP Sensor Interface,Bootloader RX(UART0)|
||19||DIO_0/BOOT_TX|DIO||GPIO, ULP Sensor Interface, Bootloader TX(UART0)|
||20||DIO_7|DIO||GPIO, AnalogInput, ULP Sensor Interface|
||21||DIO_8|DIO||GPIO, AnalogInput, ULP Sensor Interface|
||22||GND|GND||Ground|
||23||DIO_10|DIO||GPIO,AnalogInput,ULP Sensor Interface|
||24||DIO_9|DIO||GPIO,AnalogInput,ULP Sensor Interface|
||25||NC|-||No Connect(Do Not Connect)|
||26||NC|-||No Connect(Do Not Connect)|
||27||NC|-||No Connect(Do Not Connect)|
||28||NC|-||No Connect(Do Not Connect)|
||29||DIO_11|DIO||GPIO,AnalogInput,ULP Sensor Interface|
||30||DIO_12|DIO||GPIO,AnalogInput,ULP Sensor Interface|
||31||DIO_13|DIO||GPIO, AnalogInput, ULP Sensor Interface|
||32||DIO_14|DIO||GPIO, AnalogInput, ULP Sensor Interface|
||33||GND|GND||Ground|
||34-39||GND|GND||Ground and Thermal Relief Pads|
||_PI = Power Input_<br>_GND = Ground_||_PI = Power Input_<br>_DO = Digital Output_<br>_DIO = Digital Input/Output_||_AI = Analog Input_<br>_RF = Bi-directional RF Port_||
||_DI = Digital Input_||_DI = Digital Input_||||



**Note:** See the Texas Instruments CC2640 datasheet and user guide for further details on the I/O. 

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Doc # 330-0237 R1.6 

## _**Table 4: Absolute maximum ratings**_ 

|**Symbol**|**Description**|**Min**|**Max**|**Unit**|
|---|---|---|---|---|
|VCC|Digital Input Supply Voltage|-0.3|4.1|V|
|Voltage on any digital pin||-0.3|VCC+0.3, max 4.1|V|
|Input RF level|||+5|dBm|



## **IMPORTANT!** 

Do not exceed the absolute maximum ratings specified in Table 4 under any circumstances. Stressing the module beyond these limits may result in permanent damage to the module; this damage is not covered by the warranty. 

## _**Table 5: Recommended operating conditions**_ 

|**Symbol**|**Min**|**Typ**|**Max**|**Unit**|
|---|---|---|---|---|
|VCC|1.8|3.3|3.8|V|



## _**Table 6: General Characteristics**_ 

|**_Table 6: General Characteristics_**||
|---|---|
|**Characteristic**|**Description**|
|**Model Name**|SaBLE-x-R2|
|**Product Description**|Bluetooth Low Energy Wireless Module|
|**Dimension**|11.63 mm x 17.86 mm x 2.4 mm (W*L*T)|
|**Operating temperature**|-40°C to 85°C|
|**Storage temperature**|-40°C to 85°C|
|**Humidity**|Operating Humidity: 10% to 95% Non-Condensing|
||Storage Humidity: 5% to 95% Non-Condensing|
|**Weight**|0.75 g ± 0.05 g|



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Doc # 330-0237 R1.6 

_**Table 7: SaBLE-x-R2 module Bluetooth general DC characteristics**_ 

**==> picture [475 x 354] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||
|---|---|---|---|---|---|
|Parameter|Test Conditions|Min|Typ|Max|Unit|
|Input low-to-high transition with|Transition from 0 to 1, TA= 25°C, VCC=1.8V|1.07|V|
|hysteresis|
|Input high-to-low transition with|Transition from 1 to 0, TA= 25°C, VCC=1.8V|0.74|V|
|hysteresis|
|Input hysteresis|Difference between 0 to 1 and 1 to 0.|0.33|V|
|Input low-to-high transition with|Transition from 0 to 1, TA= 25°C, VCC=3.8V|1.94|V|
|hysteresis|
|Input high-to-low transition with|Transition from 1 to 0, TA= 25°C, VCC=3.8V|1.54|V|
|hysteresis|
|Input hysteresis|Difference between 0 to 1 and 1 to 0.|0.40|V|
|Logic-0 output voltage, 4 mA pins|Output load 4 mA, TA= 25°C, VCC=1.8V|0.26|V|
|Logic-1 output voltage, 4 mA pins|Output load 4 mA, TA= 25°C, VCC=1.8V|1.54|V|
|Logic-0 output voltage, 8 mA pins|Output load 8 mA, TA= 25°C, VCC=1.8V|0.21|V|
|Logic-1 output voltage, 8 mA pins|Output load 8 mA, TA= 25°C, VCC=1.8V|1.58|V|
|Logic-0 output voltage, 4 mA pins|Output load 4 mA, TA= 25°C, VCC=3.0V|0.33|V|
|Logic-1 output voltage, 4 mA pins|Output load 4 mA, TA= 25°C, VCC=3.0V|2.72|V|
|Logic-0 output voltage, 8 mA pins|Output load 8 mA, TA= 25°C, VCC=3.0V|0.28|V|
|Logic-1 output voltage, 8 mA pins|Output load 8 mA, TA= 25°C, VCC=3.0V|2.68|V|
|Input pullup current|Vpad=0V, TA= 25°C, VCC=1.8V|72|uA|
|Input pulldown current|Vpad=1.8V, TA= 25°C, VCC=1.8V|22|uA|
|Input pullup current|Vpad=0V, TA= 25°C, VCC=3.8V|277|uA|
|Input pulldown current|Vpad=3.8V, TA= 25°C, VCC=3.8V|113|uA|

**----- End of picture text -----**<br>


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_**Table 8: SaBLE-x-R2 module Bluetooth TX and RX current consumption specifications**_ 

|**Parameter**|**Test Conditions**|||**Typical Average Current**|**Typical Average Current**|**Typical Average Current**|**Typical Average Current**||||
|---|---|---|---|---|---|---|---|---|---|---|
|||**Min**|**1.8V**||**3.0V**|**3.3V**||**3.8V**|**Max**|**Unit**|
|Shutdown|No clocks running, no data retention|||||200||||nA|
|Standby 1|With RTC, CPU, RAM, and partial|||||1.2||||uA|
||register retention. XOSC_LF||||||||||
|Standby 2|With Cache, RTC, CPU, RAM, and|||||2.7||||uA|
||partial register retention. XOSC_LF||||||||||
|Idle|Supply Systems and RAM powered.|||||550||||uA|
|Active|Core running CoreMark|||||1.45 mA +|||||
|||||||31 uA/MHz|||||
|Radio RX|DC-DC Turned OFF||12.7||12.8|12.9||13.0||mA|
|Radio TX|+5 dBm output power||13.6||9.0|8.4||7.9|||



The following results are typical performance for the following data rates: 

1 Mbps (BLE), 2 Mbps (BLE5), 125 kbps, and 500 kbps Coded (BLE5) 

Results measured on Laird Connectivity SaBLE-x-R2 external antenna development board reference design with TA = 25°C, LEDs disabled, DC-to-DC converter enabled **,** and measured at RF connector. 

_**Table 9: BLE TX RF characteristics**_ 

|**Parameter**|**Test Conditions**|**Min**|**1.8V**|**Typical**<br>**3.0V**<br>**3.3V**|**Typical**<br>**3.0V**<br>**3.3V**|**3.8V**|**Max**|**Unit**|
|---|---|---|---|---|---|---|---|---|
||CH 0 (2402 MHZ)||4.8|4.8|4.8|4.8|||
|Output Power|CH 19 (2440 MHZ)||4.6|4.7|4.7|4.7||dBm|
||CH 39 (2480 MHZ)||4.3|4.3|4.3|4.4|||
|Spurious Emission|f < 1 GHz|||-43||||dBm|
|Conducted|||||||||
|Measurement|f > 1 GHz|||-46||||dBm|
|RF Frequency Range|Programmable in one-MHz steps|2402|||||2480|MHz|



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_**Table 10: BLE TX RF characteristics**_ 

|**_Table 10: BLE TX RF characteristics_**|**_Table 10: BLE TX RF characteristics_**|**_Table 10: BLE TX RF characteristics_**||||||||
|---|---|---|---|---|---|---|---|---|---|
|**Parameter**<br>**Test Conditions**<br>Receiver Sensitivity<br>DC to DC Disabled<br>CH 0 (2402 MHZ)<br>CH 19 (2440 MHZ)<br>~~ee~~|||**Min**|**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>-95<br>-95<br>-95<br>-95<br>dBm<br>-95<br>-95<br>-95<br>-95<br>~~eee~~||||||
|||CH 39 (2480 MHZ)||-95|-95|-95|-95|||
||Receiver Sensitivity<br>DC to DC Enabled|CH 0 (2402 MHZ)<br>CH 19 (2440 MHZ)||-95<br>-95|-94<br>-94|-93<br>-93|-92<br>-92||dBm|
|||CH 39 (2480 MHZ)||-95|-94|-93|-92|||
||Saturation|BER < 0.1%||||4|||dBm|
||Co-channel|Wanted signal –67 dBm||||-6|||dB|
||Rejection|||||||||
||Frequency Error|Difference between the incoming|-350|||||350||
||Tolerance|carrier frequency and the internally-|||||||kHz|
|||generated carrier frequency||||||||
||Intermodulation|Minimum interferer level||||-34|||dBm|



_**Table 11: BLE TX RF characteristics**_ 

|**Parameter**|**Test Conditions**|**Min**|**1.8V**|**Typical**<br>**3.0V**<br>**3.3V**|**Typical**<br>**3.0V**<br>**3.3V**|**3.8V**|**Max**|**Unit**|
|---|---|---|---|---|---|---|---|---|
|Receiver Sensitivity<br>DC to DC Disabled|CH 0 (2402 MHZ)<br>CH 19 (2440 MHZ)||-91.5<br>-91.5|-91.5<br>-91.5|-91.5<br>-91.5|-91.5<br>-91.5||dBm|
||CH 39 (2480 MHZ)||-91.5|-91.5|-91.5|-91.5|||
||CH 0 (2402 MHZ)||-91.5|-90|-89.5|-89|||
|Receiver Sensitivity<br>DC to DC Enabled|CH 19 (2440 MHZ)||-91.5|-90|-89.5|-89||dBm|
||CH 39 (2480 MHZ)||-91.5|-90|-89.5|-89|||
|Saturation|BER < 0.1%||||4|||dBm|
|Co-channel Rejection|Wanted signal –67 dBm||||-7|||dB|
|Frequency|Difference between the incoming||||||||
|Error|carrier frequency and the internally|-300|||||500|kHz|
|Tolerance|generated carrier frequency||||||||
|Intermodulation|Minimum interferer level||||-45|||dBm|



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Doc # 330-0237 R1.6 

|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|**_Table 12: BLE TX RF characteristics_**<br>**Parameter**<br>**Test Conditions**<br>**Min**<br>**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>~~eee~~|
|---|---|---|---|---|---|---|---|---|
||CH 0 (2402 MHZ)||-102|-102|-102|-102|||
|Receiver Sensitivity<br>DC to DC Disabled|CH 19 (2440 MHZ)||-102|-102|-102|-102||dBm|
||CH 39 (2480 MHZ)||-102|-102|-102|-102|||
|Receiver Sensitivity<br>DC to DC Enabled|CH 0 (2402 MHZ)<br>CH 19 (2440 MHZ)||-102<br>-102|-100<br>-100|-98<br>-98|-97<br>-97||dBm|
||CH 39 (2480 MHZ)||-102|-100|-98|-97|||
|Saturation|BER < 0.1%||||5|||dBm|
|Co-channel Rejection|Wanted signal –79 dBm||||-3|||dB|
|Frequency|Difference between the incoming||||||||
|Error|carrier frequency and the internally|-260|||||310|kHz|
|Tolerance|generated carrier frequency||||||||
|Intermodulation|Minimum interferer level||||-42|||dBm|



|**_Table 13: BLE TX RF characteristics_**|**_Table 13: BLE TX RF characteristics_**||||||||
|---|---|---|---|---|---|---|---|---|
|**Parameter**<br>**Test Conditions**<br>CH 0 (2402 MHZ)<br>~~ee~~||**Min**|**Typical**<br>**Max**<br>**Unit**<br>**1.8V**<br>**3.0V**<br>**3.3V**<br>**3.8V**<br>-99.5<br>-99.5<br>-99.5<br>-99.5<br>~~eee~~||||||
|Receiver Sensitivity<br>DC to DC Disabled|CH 19 (2440 MHZ)||-99.5|-99.5|-99.5|-99.5||dBm|
||CH 39 (2480 MHZ)||-99.5|-99.5|-99.5|-99.5|||
|Receiver Sensitivity<br>DC to DC Enabled|CH 0 (2402 MHZ)<br>CH 19 (2440 MHZ)||-99.5<br>-99.5|-98<br>-98|-96<br>-96|-95<br>-95||dBm|
||CH 39 (2480 MHZ)||-99.5|-98|-96|-95|||
|Saturation|BER < 0.1%||||5|||dBm|
|Co-channel Rejection|Wanted signal –79 dBm||||-5|||dB|
|Frequency|Difference between the incoming||||||||
|Error|carrier frequency and the internally|-240|||||240|kHz|
|Tolerance|generated carrier frequency||||||||
|Intermodulation|Minimum interferer level||||-37|||dBm|



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Shutdown is similar to holding the device in reset with two exceptions: 

- It latches the state of IO prior to shutting down. 

- It consumes 0.1 uA, versus approximately 37 uA. 

Figure 3 shows the response time to wake up from shutdown by using a wake-up pin. The pin is configured to wake the device up on a negative edge. Once the device wakes, it drives an awake pin low: 

_**Figure 3: SaBLE-x-R2 module waking from shutdown timing diagram**_ 

Figure 3 shows the module taking approximately 160 milliseconds to wake. 

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## 1.11.2 Standby 

Standby is a low power mode policy. When configured correctly in code the software goes into standby. 

Figure 4 shows the response time to wake up from standby using a wake up pin. The method is the same as described in the shutdown section: 

_**Figure 4: SaBLE-x-R2 module waking from standby timing diagram**_ 

Figure 4 shows the module taking approximately 139 µs to wake. 

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## _**Figure 5: Recommended soldering profile**_ 

**Note:** The quality of solder joints on the surface mount pads where they contact the host board should meet the appropriate IPC Specification. See IPC-A-610-D Acceptability of Electronic Assemblies, section 8.2.1 _Bottom Only Terminations_ . 

## 3 CLEANING 

In general, cleaning the populated modules is strongly discouraged. Residuals under the module cannot be easily removed with any cleaning process. 

- Cleaning with water can lead to capillary effects where water is absorbed into the gap between the host board and the module. The combination of soldering flux residuals and encapsulated water could lead to short circuits between neighboring pads. Water could also damage any stickers or labels. 

- Cleaning with alcohol or a similar organic solvent will likely flood soldering flux residuals into the RF shield, which is not accessible for post-washing inspection. The solvent could also damage any stickers or labels. 

- Ultrasonic cleaning could damage the module permanently. 

After soldering the module to the host board, consider optical inspection to check the following: 

- Proper alignment and centering of the module over the pads. 

- Proper solder joints on all pads. 

- Excessive solder or contacts to neighboring pads, or vias. 

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The module can be unsoldered from the host board if the Moisture Sensitivity Level (MSL) requirements are met as described in this datasheet. 

**Note:** Never attempt a rework on the module itself, e.g. replacing individual components. Such actions will terminate warranty coverage. 

Bulk orders of the SaBLE-x-R2 modules are delivered in reels of 1,000. 

The SaBLE-x-R2 modules contain a highly sensitive electronic circuitry. Handling without proper ESD protection may damage the module permanently. 

Per J-STD-020, devices rated as MSL 4 and not stored in a sealed bag with desiccant pack should be baked prior to use. 

Devices are packaged in a Moisture Barrier Bag with a desiccant pack and Humidity Indicator Card (HIC). Devices that will be subjected to reflow should reference the HIC and J-STD-033 to determine if baking is required. 

If baking is required, refer to J-STD-033 for bake procedure. 

Per J-STD-033, the shelf life of devices in a Moisture Barrier Bag is 12 months at <40ºC and <90% room humidity (RH). 

Do not store in salty air or in an environment with a high concentration of corrosive gas, such as Cl2, H2S, NH3, SO2, or NOX. Do not store in direct sunlight. 

The product should not be subject to excessive mechanical shock. 

**Note** : Only a single reflow soldering process is encouraged for host boards. 

**FCC ID** TFB-1005, FCC Part 15.247 

**IC ID** 5969A-1005, RSS 247 

**CE** Compliant to standards EN 60950-1, ETSI EN 300 328, ETSI EN 301 489-1, and ETSI 301 489-17 

Giteki: Compliant to standard ARIB STD-T66 v3.7 201-170613 (PCB trace antenna) 201-170614 (External antenna) 

RCM: Compliant to standard AS/NZS 4268:2017 

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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. 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: 

- Reorient or relocate the receiving antenna. 

- 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. 

- Consult the dealer or an experienced radio/TV technician for help. 

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 portable transmitter with its antenna complies with FCC/IC RF exposure limits for general population/ uncontrolled exposure. 

**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. 

## **Radiation Exposure Statement:** 

This equipment complies with Canada radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. 

This device complies with Industry Canada License-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. 

To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that permitted for successful communication. 

This device has been designed to operate with the antenna(s) listed below, and having a maximum gain of 0 dBi (PCB Trace), 2.0 dBi (Laird Connectivity 2.4 GHz Dipole), 2.0 dBi (Laird Connectivity 2.4 GHz FlexPIFA), 2.0 dBi (Laird Connectivity 2.4 GHz FlexNotch), and 2.0 (Laird Connectivity 2.4 GHz mFlexPIFA). Antennas not included in this list or having a gain greater than 0 dB, 2.0 dBi, 2.0 dBi, 2.0 dBi, and 2.0 dBi are strictly prohibited for use with this device. The required antenna impedance is 50 ohms. 

List of all Antennas Acceptable for use with the Transmitter 

- On module PCB trace antenna. 

- Laird Connectivity 001-0001 center-fed 2.4 GHz dipole antenna and Laird Connectivity 080-0001 U.FL to Reverse Polarity SMA connector cable. 

- Laird Connectivity 001-0014 2.4 GHz FlexPIFA antenna. 

- Laird Connectivity 001-0015 2.4 GHz FlexNotch antenna. 

- Laird Connectivity 001-0030 2.4 GHz Metal FlexPIFA (mFlexPIFA) antenna. 

## **Déclaration d'exposition aux radiations:** 

Cet équipement est conforme Canada limites d'exposition aux radiations dans un environnement non contrôlé. Cet équipement doit être installé et utilisé à distance minimum de 20cm entre le radiateur et votre corps. 

Cet appareil est conforme aux normes d'Industrie Canada exempts de licence RSS (s). L'opération est soumise aux deux conditions suivantes: (1) cet appareil ne peut pas provoquer d'interférences et (2) cet appareil doit accepter toute interférence, y compris les interférences qui peuvent causer un mauvais fonctionnement de l'appareil. 

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Pour réduire le risque d'interférence aux autres utilisateurs, le type d'antenne et son gain doiventêtre choisis de manière que la puissance isotrope rayonnée équivalente (PIRE) ne dépasse pascelle permise pour une communication réussie. 

Cet appareil a été conçu pour fonctionner avec l'antenne (s) ci-dessous, et ayant un gain maximum de 0 dBi (PCB Trace), 2,0 dBi (Laird Connectivity 2.4 GHz Dipole), 2,0 dBi (Laird Connectivity 2.4 GHz FlexPIFA), 2,0 dBi (Laird Connectivity 2.4 GHz FlexNotch), et 2,0 dBi (Laird Connectivity 2.4 GHz mFlexPIFA). Antennes pas inclus dans cette liste ou présentant un gain supérieur à 0 dBi, 2,0 dBi, 2,0 dBi, 2,0 dBi, et 2,0 dBi sont strictement interdites pour une utilisation avec cet appareil. L'impédance d'antenne requise est de 50 ohms. 

Liste de toutes les antennes acceptables pour une utilisation avec l'émetteur 

- Le module d'antenne PCB trace. 

- Laird Connectivity 001-0001 centre-fed 2,4 GHz antenne dipôle et Laird Connectivity 080-0001 U.FL pour inverser câble connecteur SMA à polarité. 

- Laird Connectivity 001-0014 antenne FlexPIFA 2,4 GHz. 

- Laird Connectivity 001-0015 antenne FlexNotch 2,4 GHz. 

- Laird Connectivity 001-0030 antenne Métal FlexPIFA (mFlexPIFA) 2,4 GHz 

The SaBLE-x-R2 module has been certified for integration into products only by OEM integrators under the following conditions: 

The antennas for this transmitter must not be co-located with any other transmitters except in accordance with FCC and Industry Canada multi-transmitter procedures. 

As long as the two conditions above are met, further transmitter testing 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 (for example, digital device emissions, PC peripheral requirements, etc.). 

- **IMPORTANT NOTE:** In the event that these conditions cannot be met (for certain configurations or co-location with another transmitter), then the FCC and Industry Canada authorizations are no longer considered valid and the FCC ID and IC Certification Number cannot 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 FCC and Industry Canada authorization. 

Le module de SaBLE-x-R2a été certifié pour l'intégration dans des produits uniquement par des intégrateurs OEM dans les conditions suivantes: 

Les antennes pour ce transmetteur ne doit pas être co-localisés avec les autres émetteurs sauf en conformité avec la FCC et Industrie Canada multi-émetteur procédures.. 

Tant que les deux conditions précitées sont réunies, les tests de transmetteurs supplémentaires ne seront pas tenus. Toutefois, l'intégrateur OEM est toujours responsable de tester leur produit final pour toutes les exigences de conformité supplémentaires requis avec ce module installé (par exemple, les émissions appareil numérique, les exigences de périphériques PC, etc.) 

## **NOTE IMPORTANTE:** 

Dans le cas où ces conditions ne peuvent être satisfaites (pour certaines configurations ou de coimplantation avec un autre émetteur), puis la FCC et Industrie autorisations Canada ne sont plus considérés comme valides et l'ID de la FCC et IC numéro de certification ne peut pas être utilisé sur la produit final. Dans ces circonstances, l'intégrateur OEM sera chargé de réévaluer le produit final (y compris l'émetteur) et l'obtention d'un distincte de la FCC et Industrie Canada l'autorisation. 

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Doc # 330-0237 R1.6 

The SaBLE-x-R2 module is labeled with its own FCC ID and IC certification number. The FCC ID and IC certification numbers are not visible when the module is installed inside another device. As such, the end device into which the module is installed must display a label referring to the enclosed module. The end product must be labeled in a visible area with the following: 

## _**Contains Transmitter Module FCC ID: TFB-1005**_ 

## _**Contains Transmitter Module IC: 5969A-1005**_ 

or 

## _**Contains FCC ID: TFB-1005**_ 

## _**Contains IC: 5969A-1005**_ 

The OEM of the SaBLE-x-R2 module must only use the approved antenna(s) listed above, which have been certified with this module. 

Le module de SaBLE-x-R2 est étiqueté avec son propre ID de la FCC et IC numéro de certification. L'ID de la FCC et IC numéros de certification ne sont pas visibles lorsque le module est installé à l'intérieur d'un autre appareil, comme par exemple le terminal dans lequel le module est installé doit afficher une etiquette faisant référence au module cijoint. Le produit final doit être étiqueté dans un endroit visible par le suivant : 

## _**Contient Module émetteur FCC ID: TFB-1005**_ 

## _**Contient Module émetteur IC: 5969A-1005**_ 

ou 

## _**Contient FCC ID: TFB-1005**_ 

## _**Contient IC: 5969A-1005**_ 

Les OEM du module SaBLE-x-R2 ne doit utiliser l'antenne approuvée (s) ci-dessus, qui ont été certifiés avec ce module. 

The OEM integrator should not provide information to the end user regarding how to install or remove this RF module or change RF related parameters in the user manual of the end product. 

Other user manual statements may apply. 

L'intégrateur OEM ne devraient pas fournir des informations à l'utilisateur final sur la façon d'installer ou de supprimer ce module RF ou modifier les paramètres liés RF dans le manuel utilisateur du produit final. 

Autres déclarations manuel de l'utilisateur peuvent s'appliquer . 

This device has been tested and certified for use in the European Union. See the Declaration of Conformity (DoC) for specifics (available on the applicable product page of the Laird website). 

If this device is used in a product, the OEM has responsibility to verify compliance of the final product to the EU standards. A Declaration of Conformity must be issued and kept on file as described in the 2014/53/EU – Radio Equipment Directive (RED). 

The CE mark must be placed on the OEM product per the labeling requirements of the directive. 

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Doc # 330-0237 R1.6 

## 10 AUSTRALIA 

## _**Table 14: AS/NZS certification**_ 

**Radio Equipment and Systems (Short Range Devices) Standard 2014 (Amnt 1:2015) Radiocommunications (Low Interference Potential Device) Class License 2015** 

AS/NZS 4268: 2017 EN 300 328 v2.1.1 (2016-11) 

Report No.: AR742502, Dated: 25 April 2017, International Certification Corp. 

**Radiocommunications (Electromagnetic Radiation – Human Exposure) Standard 2014** 

AS/NZS 2772.2:2011 

Report No.: AA742502, Dated: 25 April 2017, International Certification Corp. Maximum Exposure Levels to Radio Frequency Fields – 3 KHz to 300 GHz (2002) RPS 3, ARPANSA 

Category B Exemption – Fixed Station Exemption, ARPANSA Schedule 5, General Public Exposure, <20mW Mean Power, Or no antenna near the body (>20 cm from unaware user) and mean output power does not exceed Table 2 threshold for testing. 

If this device is used in a product, the OEM has the responsibility to verify the compliance of the final end product to the Australia/New Zealand (RCM) Standards. All end-products require their own certification (SDoc). You cannot leverage the module certification and ship product into the country. 

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The SaBLE-x-R2 module is listed on the Bluetooth SIG website as a _Component Tested_ design. It is intended use is integration into a new End Product design by a third-party SIG member. 

|**Design**<br>**Name**|**Owner**|**Declaration**<br>**ID**|**QD ID**|**Link to listing on the SIG website**|
|---|---|---|---|---|
|SaBLE-x-<br>R2|Laird<br>Technologie|D035147|96853|https://www.bluetooth.org/tpg/QLI_viewQDL.cfm?qid=<br>35147|
||s||||



It is a mandatory requirement of the Bluetooth Special Interest Group (SIG) that every product implementing Bluetooth technology has a Declaration ID. Every Bluetooth design is required to go through the qualification process, even when referencing a Bluetooth design that already has its own Declaration ID. The qualification process requires each company to registered as a member of the Bluetooth SIG – www.bluetooth.org 

The following link provides a link to the Bluetooth Registration page: https://www.bluetooth.org/login/register/ 

For each Bluetooth design it is necessary to purchase a Declaration ID. This can be done before starting the new qualification, either through invoicing or credit card payment. The fees for the Declaration ID depend on your membership status. Please refer to the following webpage: 

https://www.bluetooth.org/en-us/test-qualification/qualification-overview/fees 

For a detailed procedure of how to obtain a new Declaration ID for your design, please refer to the following SIG document: 

https://www.bluetooth.org/DocMan/handlers/DownloadDoc.ashx?doc_id=283698&vId=317486 

If you wish to use a Laird component in your end product, the qualification process follows the _Traditional Project_ route, creating a completely new design. When creating a new design, it is necessary to complete the full qualification listing process and maintain a compliance folder for the new design. 

The SaBLE-x-R2 design under D035147 incorporates the following Texas Instrument component; 

|**Listing reference**|**Listing reference**|**Design Name**|**Core Spec Version**|
|---|---|---|---|
|D035408(RF-PHY)|(RF-PHY)|CC2640R2F SimpleLink™ Bluetooth® 5.0 low energy Wireless MCU|5.0|



If your design is based on un-modified SaBLE-x-R2 hardware, it is possible to use the following process; 

1. Reference the existing RF-PHY test report from the SaBLE-x-R2 listing. 

2. Combine the relevant Texas Instruments component(s) – covering as a minimum LL, L2CAP, GAP, ATT, GATT, SM). Check relevant QDID with Texas Instruments\Laird. 

Example component is Texas Instruments D033411) 

3. Test on PTS any standard SIG profiles that are supported in the design. Customs profiles are exempt. 

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Doc # 330-0237 R1.6 

## End Product 

**==> picture [151 x 149] intentionally omitted <==**

**----- Start of picture text -----**<br>
| Laird RF-PHY<br>|I<br>| 3 [rd]  Party LL<br>|I<br>|<br>| 3 [rd]  Party Host  I<br>I Layers<br>|I<br>I oF I<br>|<br>| Optional Profiles  I<br>**----- End of picture text -----**<br>


_**Figure 6: End Product design qualification scope**_ 

Figure 6 shows the scope of the qualification for an End Product Design. 

The first step is to generate a project on the TPG (Test Plan Generator) system. This determines which test cases apply to demonstrate compliance with the Bluetooth Test Specifications. When combining qualified components in your design, and they are within their 3-year listing period, you are not required to re-test those layers covered by those components. 

If the design incorporates any standard SIG LE profiles (such as the Heart Rate Profile), it is necessary to test these profiles using PTS or other tools where permitted; the results are added to the compliance folder. 

You must upload your test declaration and test reports (where applicable) and then complete the final listing steps on the SIG website. 

**Note:** Remember to purchase your Declaration ID before you start the qualification process, as it is not possible to complete the listing without it. 

For further information please refer to the following training material: 

https://www.bluetooth.org/en-us/test-qualification/qualification-overview/listing-process-updates 

If you require assistance with the qualification process, please contact our recommended Bluetooth Qualification Expert (BQE), Steve Flooks, steve.flook@eurexuk.com. 

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Doc # 330-0237 R1.6 

## 12 ANTENNA INFORMATION 

See antenna datasheet. 

See antenna datasheet. 

See antenna datasheet. 

See antenna datasheet. 

**==> picture [245 x 194] intentionally omitted <==**

**----- Start of picture text -----**<br>
AZIMUTH ROTATION<br>AXIS AND ANGLE<br>Ty<br>\ ELEVATION ROTATION<br>[| AXIS AND ANGLE<br><<br>2ND<br>ELEVATION ROTATION<br>AXIS AND ANGLE<br>**----- End of picture text -----**<br>


_**Figure 7: PCB trace antenna pattern measurement planes**_ 

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_**Table 15: PCB trace antenna gain summary**_ 

|**Orientation**|**Frequency**<br>**(MHz)**|**Polarization**|**Peak Gain**<br>**(dBi)**|**Average**<br>**Gain (dBi)**|**Average**<br>**Total Gain**<br>**(P) (dBi)**|**Average**<br>**Total Gain**<br>**(F, P) (dBi)**|**Average**<br>**Total Gain**<br>**(O, F, P)**<br>**(dBi)**|
|---|---|---|---|---|---|---|---|
|Azimuth|2402|Vertical|0.0|-3.6|-3.0|-4.6|-5.9|
|Azimuth|2402|Horizontal|-6.6|-12.4||||
|Azimuth|2440|Vertical|-1.7|-5.1|-4.5|||
|Azimuth|2440|Horizontal|-1.7|-13.4||||
|Azimuth|2480|Vertical|-4.3|-7.9|-7.3|||
|Azimuth|2480|Horizontal|-11.5|-15.9||||
|Elevation|2402|Vertical|-7.3|-11.4|-4.7|-6.0||
|Elevation|2402|Horizontal|-1.2|-5.7||||
|Elevation|2440|Vertical|-7.9|-12.6|-5.6|||
|Elevation|2440|Horizontal|-7.9|-6.6||||
|Elevation|2480|Vertical|-11.0|-15.9|-8.3|||
|Elevation|2480|Horizontal|-4.2|-9.1||||
|2ndElevation|2402|Vertical|-9.4|-14.8|-6.6|-7.7||
|2ndElevation|2402|Horizontal|-2.8|-7.3||||
|2ndElevation|2440|Vertical|-10.3|-16.6|-7.3|||
|2ndElevation|2440|Horizontal|-3.4|-7.9||||
|2ndElevation|2480|Vertical|-12.8|-18.9|-9.8|||
|2ndElevation|2480|Horizontal|-6.0|-10.4||||



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Doc # 330-0237 R1.6 

## **Vertical, Horizontal Antenna Patterns at 2402 MHz (dB) – Azimuth Cut** 

**==> picture [262 x 252] intentionally omitted <==**

**----- Start of picture text -----**<br>
90<br>0<br>120 _—— ae 60<br>a<4 -10 .<br>arey a .‘“ faeon -20 \ . \\<br>150 aii ve ad } N\ \ 30<br>/ fo Vad \f ! \ \<br>-30<br>/ S.fo fo ; if on=% : \ \<br>/ 5 / -40 / Bea \<br>i| — , \<br>| -—S, x% \|<br>180 f our I 0<br>, ¢ ee pfoe<br>\\ 3 ™ ” | |<br>) 7\ / . /<br>\ ff $y a ae<br>\ a we i \ A if /<br>210 Naearr7 ‘1i! Wwaw aoee /: 330<br>Ng Ay 1 ~ oe<br>: fu ’ read<br>‘, ne \ a<br>\ ay ‘, 7 4<br>“eo A<br>240 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 8: PCB Trace Antenna Pattern (Azimuth @ 2402 MHz)**_ 

## **Vertical, Horizontal Antenna Patterns at 2402 MHz (dB) – Elevation Cut** 

**==> picture [263 x 252] intentionally omitted <==**

**----- Start of picture text -----**<br>
90<br>0<br>120 a a oNo N 60<br>va -10 ~\<br>/o Gam my -20 4aed el“A -<br>150 p Coat/yy on J / “A“Nh iff. 1) anhan \ 30<br>jf/ 7 . ££ 7 usyr1 -30 . : \ WOaDs \<br>lf/i ~ ys; / / ; : \ : we» \a<br>if : -40 : ; s 7 \<br>q _ “\ \<br>180 t \§ish? YUL77y \ } + 2 |ul 0<br>i.¢ \ ; So >)i<br>Ay a \ ay, 1'<br>210 330<br>NN ; : jt ; Pu° /<br>\\TsesO Yfolk eeye<br>~ ” X% uenet<br>Zoot?<br>N\ See Xe a<br>SN -<br>240 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 9: PCB Trace Antenna Pattern (Elevation @ 2402 MHz)**_ 

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## **Vertical, Horizontal Antenna Patterns at 2402 MHz (dB) – Second Elevation Cut** 

**==> picture [263 x 253] intentionally omitted <==**

**----- Start of picture text -----**<br>
90<br>0<br>120 a a Danen rN, -10 oN 60<br>Va  ee ° ~. o N<br>Ly [oo] “7“ See, ™~\<br>/ Yo -20 Ko 4<br>150 30<br>fe a 4<br>/ A toL ; -30 \ ! \\<br>iN / SS \<br>// \ x<br>-40<br>/ % : 1<br>| ‘, / ; 4<br>| a L fo}<br>180 4 0<br>|<br>\ wh ya ;<br>\ la 4 if<br>\ \ ae] - rf /<br>. o “a Fa /<br>210 ; a 330<br>ae f<br>\ h f<br>% y,<br>AR ow<br>NN weerSNewwa<br>240 —_ — 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 10: PCB Trace Antenna Pattern (2nd Elevation @ 2402 MHz)**_ 

**Vertical, Horizontal Antenna Patterns at 2440 MHz (dB) – Azimuth Cut** 

**==> picture [264 x 254] intentionally omitted <==**

**----- Start of picture text -----**<br>
90<br>0<br>120 60<br>-10<br>| at \<br>/ 4 a -20 a<br>150 / ; vO % 30<br>PONY aa ri ‘ - \<br>-30<br>7 : ae<br>/ \ -40 : me \<br>180 | | 2——Sse a rn \ nn s 5 \ 0<br>|| f ‘ ; ,|a<br>\ ; ~~ SS y |<br>\ ue a / H /<br>\\ ne-— 7 . y J, /<br>\ Fan\a yy MY / ‘g /<br>\H “sf ul a : /<br>210 x\ Mee4\ . I\1 oYisrayfii rr !\Ls,. nner; sfeofo7 yJ 330<br>\ Yano? \ } 4<br>_ ereSave’ ya<br>ae a<br>240 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 11: PCB Trace Antenna Pattern (Azimuth @ 2440 MHz)**_ 

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## **Vertical, Horizontal Antenna Patterns at 2440 MHz (dB) – Elevation Cut** 

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**----- Start of picture text -----**<br>
90<br>0<br>120 60<br>-10<br>/va son IN<br>menor, -20 wrncte,<br>150 ffcal . Aw \ 30<br>ws a n<br>a rys fo Non if -30 \ ena \<br>i / / 1 ‘. \<br>i) \ \<br>/2 / -40 |<br>i st al<br>im ~ & |<br>180 i it)t : } j ; oo ,. | 0<br>| * |<br>-‘ : ; >: |<br>vA \ ; i |<br>\¥AX \ ’ . J / 7/ /<br>210 noeSea\ ; So a< / 330<br>‘ iy, - “”<br>Saotem "7% /<br>N. ae oe eae wa<br>240 SN _ 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 12: PCB Trace Antenna Pattern (Elevation @ 2440 MHz)**_ 

**Vertical, Horizontal Antenna Patterns at 2440 MHz (dB) – Second Elevation Cut** 

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**----- Start of picture text -----**<br>
90<br>0<br>120 -Patecon, -10  ™“wan 60<br>v4 a Jf ‘y<br>-20<br>150 // ;4\ 30<br>‘ y -30<br>/ 4 / ; / ~ is S, \<br>‘ -40 \ a \<br>// , : . NX 7 \<br>/ ié2><br>|<br>180 | 4 Py , y o| 0<br>f<br>a / rT<br>\\Ziy/ d' /<br>210 : ae 330<br>\<br>\\N 4‘Nelooe, weoOasyaA(<br>NN See eae a<br>240 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_Figure 13: PCB Trace Antenna Pattern (2nd Elevation @ 2440 MHz)_ 

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## **Vertical, Horizontal Antenna Patterns at 2480 MHz (dB) – Azimuth Cut** 

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**----- Start of picture text -----**<br>
90<br>0<br>120 60<br>-10<br>a o N<br>-20<br>150 30<br>/ fnew py a \<br>-30<br>/ 7 “ ey ‘ . \<br>-40<br>180 | ‘“ —NL y\ " | | sa t \ 0<br>| “ ;<br>¢<br>\ & - |<br>ya a Z|» }<br>\ \ ea \ - y, 3 /<br>KY. 4 7 A Ww os<br>; C4 “4 /l Ww ay ,<br>210 ~ Nae?- i / H ' \ . i fp 330<br>We<br>NO \ \on 4 t Swraef 7<br>240 a = 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 14: PCB Trace Antenna Pattern (Azimuth @ 2480 MHz)**_ 

## **Vertical, Horizontal Antenna Patterns at 2480 MHz (dB) – Elevation Cut** 

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**----- Start of picture text -----**<br>
90<br>0<br>120 en 60<br>-10<br>a - _<br>-20<br>150 30<br>-30<br>( : a - \ / os San .<br>aCrL- / / / Wi, i AS*y \\<br>/ : - Hy -40 \ . b‘“ \<br>}joa J \, % \<br>| o¢i 1s \<br>| |<br>180 4!,|3 0<br>/ ON3 ——:<br>\ ry 5<br>ON \$ \ ; ’ H |<br>\\ 4» x ' XY ; i / |<br>210 - ma < 7 7 - y, ?; ma / 330<br>\\ XNa NW Lo eeeAye<br>NZ »<br>240 ae a 300<br>Vertical<br>Horizontal<br>270<br>**----- End of picture text -----**<br>


_**Figure 15: PCB Trace Antenna Pattern (Elevation @ 2480 MHz)**_ 

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**Vertical, Horizontal Antenna Patterns at 2480 MHz (dB) – Second Elevation Cut** 

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90<br>0<br>120 60<br>a a -10 —s<br>4 ad[Fob eeejones - % oN~~<br>150 v J i -20 N 4 30<br>-30<br>-40<br>|a—<br>180 < - - 0<br>\ %, MF ; wi ><br>210 330<br>ot Aid :<br>\ wl<br>Tete, 7 ral<br>NN. a ore ae \e<br>240 300<br>Vertical<br>si 270 e Horizontal<br>**----- End of picture text -----**<br>


_**Figure 16: PCB Trace Antenna Pattern (2nd Elevation @ 2480 MHz)**_ 

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## 13 MECHANICAL DATA 

The following are the mechanical dimensions of the SaBLE-x-R2 module. 

_**Figure 17: Module Mechanical Dimensions (Maximum Module Height = 2.4mm)**_ 

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## 14 PCB FOOTPRINT 

_**Figure 18: SaBLE-x-R2 Recommended PCB Footprint (Viewed from Top)**_ 

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**==> picture [261 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
Note: Module must be in this orientation when feeding tape.<br>**----- End of picture text -----**<br>


_**Figure 19: Tape and reel specification**_ 

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## 15 DEVICE MARKINGS 

## 15.1.1 Rev1 Devices 

The shield on the 450-0177/450-0178 modules contains the following information: 

- Laird Model: SaBLE-x-R2 

- Part Number and Revision: 

   - Part Number: 450-0177 or 450-0178 

   - Revision: -RX (where X is the latest revision) 

- FCC ID: TFB-1005 

- IC: 5969A-1005 

- SSYYWWD = Date Code (YY=Year, WW=Week) 

- XXXXX = Incremental Serial Number 

- 2D Barcode Format is Data Matrix Standard 

## 15.1.2 Rev 2 Devices 

Added Giteki and C-Tick Certification 

The shield on the 450-0177/450-0178 modules contains the following additional information: 

- C-Tick Logo (Australia and New Zealand Certification) 

- Giteki Logo (Japan Certification) 

   - Symbol of Radio Certification 

   - **201** CAB ID assigned by Minister of MIC 

   - **170613** (450-0177) or **170614** (450-0178) Certification number assigned by the CAB. 

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The shield on the 450-0194/450-0195 modules contains the following information: 

- Laird Model: SaBLE-x-R2 

- Part Number and Revision: 

   - Part Number: 450-0194 or 450-0195 

   - Revision: -RX (where X is the latest revision) 

- FCC ID: TFB-1005 

- IC: 5969A-1005 

- SSYYWWD = Date Code (YY=Year, WW=Week) 

- XXXXX = Incremental Serial Number 

- 2D Barcode Format is Data Matrix Standard 

- C-Tick Logo (Australia and New Zealand Certification) 

- Giteki Logo (Japan Certification) 

      - Symbol of Radio Certification 

      - **201** CAB ID assigned by Minister of MIC 

      - **170613** (450-0177) or **170614** (450-0178) Certification number assigned by the CAB. 

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Doc # 330-0237 R1.6 

## 16 CONTACTING LAIRD 

**Website** 

**Technical Support Sales Contact** 

https://www.lairdconnect.com/ 

https://www.lairdconnect.com/resources/support support@lairdconnect.com sales@lairdconnect.com 

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Doc # 330-0237 R1.6