BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Release r04d01
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Note This device was developed for the purpose of communication in an office environment. It is intended solely for our industrial clients for physical integration into their own technical products after careful examination by experienced technical personnel for its suitability for the intended purpose. The device was not developed for or intended for use in any specific customer application.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Table of contents 1 Introduction .............................................................................................................................. 8 1.1 Feature Summary ............................................................................................................. 8 1.2 Applications ......................................................................................................................
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 4.2 Pin Description................................................................................................................ 23 4.2.1 General Pin Description ........................................................................................... 23 4.2.2 Application Specific Pin Description ......................................................................... 24 4.2.2.1 4.3 5 Handling of Unused Signals ....................................
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.2.1 FCC Grant ............................................................................................................... 52 8.2.2 FCC Statement ........................................................................................................ 52 8.2.3 FCC Caution ............................................................................................................ 52 8.2.4 FCC Warning ..................................................
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Figure 6: BlueMod+SR Example Serial Interface (Mixed Signal Level) ......................................... 17 Figure 7: BlueMod+SR I2C Interface ............................................................................................. 18 Figure 9: Unity 3e+ Coexistence ................................................................................................... 20 Figure 10: BlueMod+SR Pin Numbering (Top View) ......................................
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Table 17: RF Performance GFSK, PI/4 DQPSK, 8DPSK Transmitter ........................................... 38 Table 18: RF Performance BLE Receiver ..................................................................................... 39 Table 19: RF Performance BLE Transmitter ................................................................................. 41 Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 1 Introduction This Hardware Reference documents how the BlueMod+SR/AI and BlueMod+SR/AP can be integrated into customer systems. It addresses hardware specifications of the BlueMod+SR/AI and /AP and requirements of the hardware environments for the BlueMod+SR/AI and BlueMod+SR/AP. Notation: The term BlueMod+SR refers to both the BlueMod+SR/AI and the BlueMod+SR/AP.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 1.2 Applications The BlueMod+SR can be used in different applications. Regardless if the application requires high throughput or low energy consumption, BlueMod+SR offers the best of both worlds. Some typical applications are described in this chapter. Supported profiles are: BR/EDR: • SPP • • Terminal IO any GATT based LE-profile LE: Support for any additional profile is possible on request. 1.2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 1.2.5 Sports and Fitness In the sports and fitness segment Bluetooth is used in devices for positioning as well as monitoring vital data. Typical devices in this market are heart rate monitors, body temperature thermometers, pedometers, cadence meters, altimeter, positioning / GPS tracking and watches displaying information from sensors. 1.2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 2 Block Diagram BlueMod+SR EEPROM 14,7456MHz onboard antenna 1) 26MHz STM32F103 CSR8811 DEBUG 3.3V BP Filter 1 RESET 2 I2C 7 UART 9 GPIO SPI opt. 32kHz 1) BlueMod+SR/AI only 2)BlueMod+SR/AP only WLAN-COEX EXT-ANT 2) 4 3 VSUP GND Figure 1: BlueMod+SR Block Diagram Note: BlueMod+SR/AI has an internal ceramic antenna whereas BlueMod+SR/AP provides for an 50Ω RF interface Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3 Application Interface 3.1 Power Supply BlueMod+SR require a power supply with the following characteristics: Typical: 3,3VDC, min.: 2,5VDC, max.: 3.6VDC, low noise (≤ 10mVrms), > 80mA peak For optimal performance a stable supply is recommended. If a regulator is to be used, it should be a fast linear regulator placed as close as possible to the VSUP pins (E-6, F-6).
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.3 Reset BlueMod+SR are equipped with circuitry for generating Power ON Reset from the internal core voltage. A reset is generated when the core voltage falls below typically 1,88V and is released when it rises above typically 1,92V. By holding pin B-1 (EXT-RES#) at ≤ 0,5V for ≥ 5ms, an external reset is generated. This pin has a fixed internal pull-up resistor (RPU = 30kΩ ... 50kΩ) and a capacitor to GND (100n) which acts as debounce filter.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference The following table shows the pin states of BlueMod+SR during reset active.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.5 Serial Interface The serial interface of BlueMod+SR is a high-speed UART interface supporting RTS/CTS flow control and interface-up/down mechanism according to the UICP+ protocol (refer to [3] ). Electrical interfacing is at CMOS levels (defined by VSUP).
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.5.1 3-Wire Serial Interface When using only GND and UART-RXD, UART-TXD serial lines, leave UART-RTS# and UARTCTS# open Note: It is strongly recommended to use hardware flow control. Not using flow control can cause a loss of data.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference XC6204-3.3 +3V3_switched VOUT VIN +5VDC 1µ VSS CE 100k User Host System 10µ+100n+1n BlueMod+SR VSUP D-2 UART_RXD F-4 UART_TXD F-3 UART_CTS# D-7 UART_RTS# BT_ENABLE (GPIO, Out, no pu/pd) SN74AVC4T245 VCCB VCCA 1DIR 1OE VDD_HOST (+1.2 .. +3.6V) 100k OE_DRV# VDDIO (+1.2V .. +3.6V) (GPIO, Out, no pu/pd) 1B1 1A1 TXD 1B2 1A2 RTS# 2DIR 2OE 2B1 2A1 RXD 2B2 2A2 CTS# GND Figure 6: BlueMod+SR Example Serial Interface (Mixed Signal Level) 3.5.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.7 I2C Interface 1 The I2C bus interface serves as an interface between the internal microcontroller and the serial I2C bus. It provides multimaster capability, and controls all I2C bus specific sequencing, protocol, arbitration and timing. It supports standard (100kHz) and fast (400kHz) speed modes. GPIO[1]/I2C-SDA and GPIO[0]/I2C-SCL can be used to form an I2C interface.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference SPI Serial Peripheral Interface 2 3.8 The serial peripheral interface (SPI) allows half/full-duplex, synchronous, serial communication with external devices. The interface can be configured as the master and in this case it provides the communication clock (SCK) to the external slave device. The interface is also capable of operating in multi master configuration.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.10 WLAN Coexistence Interface 3 For implementing WLAN Coexistence with CSR’s Wi-Fi solution the Unity 3e+ solution is implemented. For non-CSR WiFi solutions only the 3 Signals BT_ACTIVE (BT-ACT), BT_STATUS (BT-STAT) and WLAN_DENY (WLAN-DNY) are used. BT-ACT BlueMod+SR WiFi Device BT-STAT WLAN-DNY BT-PER Figure 9: Unity 3e+ Coexistence If this interface is not used, these signals may be left unconnected.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.13 Pin Strapped System Memory Boot Mode Invocation Asserting BOOT0 “high” will invoke the system memory bootloader at start-up. This is required for firmware update. Thus, access to this signal and a means to drive it at high level should be foreseen by the customer’s hardware. While not in use, this signal can be left open or driven to logic low level.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 3.15 Serial Wire Interface The Serial Wire interface SWDIO, SWCLK is normally not used in a customer’s product. It is reserved for debugging purposes. Leave SWDIO, SWCLK unconnected. Only if you intend to use it for debugging purposes, make it available and connect SWDIO via a pullup resistor 100kΩ to VSUP (refer to [1]). 4 Module Pins 4.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 4.2 Pin Description 4.2.1 General Pin Description Type: PU - pull-up; PD – pull-down; PWR – Power; I – Input; O – Output; I/O – bidir.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 4.2.2 Application Specific Pin Description 4.2.2.1 SPP Pin Configuration Type: PU – Pull-up; PD – pull-down; PWR – Power; I – Input; O – Output; I/O – bidir.; OD – open drain: PP – push/pull; RF: RadioFreq Pin Name Signal SPP-Function Type Act Description E-6 VSUP1 Power PWR +3,3V nom.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference r E-1 BOOT0 E-3 DNU (4) I-PD (2) reserved system memory bootloader leave open (serial wire) r D-6 DNU (4) C-2 DNU (4) reserved leave open B-3 DNU (4) reserved leave open DNU (4) reserved leave open DNU (4) reserved leave open DNU (4) reserved leave open A-5 F-5 E-5 leave open (serial wire) Table 5: Application Specific Pin Assignments, SPP Notes: (1) a discrete pull-up resistor is used (2) a discrete pull-down resistor is
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5 Electrical Characteristics 5.1 Absolute Maximum Ratings Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “Electrical Requirements” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.4 Environmental Requirements Item Symbol Absolute Maximum Ratings Unit Storage temperature range Tstg -40 to +85 °C Operating temperature range Top -30 to +85 °C Table 9: Environmental Requirements 5.5 Digital I/O Including EXT-RES# STM32 MCU and CSR8811 do have different electrical I/O characteristics.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Tamb = 25°C Symbol Item Condition Limit Unit Min Typ Max VIL Low-Level Input Voltage VSUP = 2,5 to 3,6V -0,3 - 0,9 V VIH High-Level Input Voltage VSUP = 2,5 to 3,6V 2,0 - VSUP+0,3 V VOL Low-Level Output Voltage IOL = 4mA - - 0,4 V VOH High-Level Output Voltage IOH = -4mA VSUP-0,4 - - V IOL Low -Level Output Current VOL = 0,4V - - 8 mA - - -8 mA 2, 7 V < IOH V S U P High-Level Output Current < 3 , 6 V VOH = 2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Symbol Item Condition Limit Unit Min VLSEL Low-Level Input Voltage VLSEH High-Level Input Voltage VSUP = 2,5 to 3,6V Ilc I/O pad leakage current Cl Input Capacitance Typ Max 0,0 - 0,3 V 0,7xVSUP - VSUP V -1 - +1 µA VSUP = 2,5 to 3,6V VSS ≤ VIN ≤ VSUP 5 pF Table 11: DC Characteristics, SLCK (STM32 Backup Domain) Note: Signal at SLCK is also fed to CSR8811 and has to comply to Table 12, too.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.6 Power Consumption and Power Down Modes 5.6.1 SPP Configuration The following values are typical power consumption values in the different states.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference The following table shows the average power consumption of BlueMod+SR in LE-mode operating in the peripheral device role.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.7 RF Performance 5.7.1 GFSK, PI/4 DQPSK, 8DPSK Receiver VSUP = 2,5V to 3,6V, Tamb = 20°C Measured conducted according to BT specification v1.2/2.0/2.0 + EDR/2.1/2.1 + EDR/3.0/3.0 + HS/4.0 Receiver Frequency [GHz] Limit Sensitivity at 0.1% BER DH1 Sensitivity at 0.1% BER DH5 Sensitivity at 0.1% BER EDR2, PI/4 DQPSK Sensitivity at 0.1% BER EDR3, 8DPSK BT Typ Max 2.402 -84 -80 2.441 -88 -84 Min 2.480 -88 -84 2.402 -84 -80 2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Receiver Frequency [GHz] Limit Min BT Typ Max Unit Spec Adj. channel selectivity C/I f = f0 + 1MHz 8DPSK -4 5 ≤5 dB Adj. channel selectivity C/I f = f0 - 1MHz 8DPSK -1 5 ≤5 dB Adj. channel selectivity C/I f ≥ f0 + 2MHz 8DPSK -36 -25 ≤ -25 dB Adj. channel selectivity C/I f ≤ f0 - 2MHz 8DPSK -31 -13 ≤ -13 dB Adj. channel selectivity C/I f ≥ f0 + 3MHz 8DPSK -42 -33 ≤ -33 dB Adj.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference VSUP = 2,5V to 3,6V, Tamb = -30°C Measured conducted according to BT specification v1.2/2.0/2.0 + EDR/2.1/2.1 + EDR/3.0/3.0 + HS/4.0 Receiver Frequency [GHz] Limit Typ Max 2.402 -84 -80 2.441 -88 -84 Min Sensitivity at 0.1% BER DH1 Sensitivity at 0.1% BER DH5 Sensitivity at 0.1% BER EDR2, PI/4 DQPSK Sensitivity at 0.1% BER EDR3, 8DPSK BT 2.480 -88 -84 2.402 -84 -80 2.441 -88 -84 2.480 -88 -84 2.402 -88 -70 2.441 -91 -70 2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.7.2 GFSK, PI/4 DQPSK, 8DPSK Transmitter VSUP = 2,5V to 3,6V, Tamb = +20°C Measured conducted according to BT specification v1.2/2.0/2.0 + EDR/2.1/2.1 + EDR/3.0/3.0 + HS/4.0 Trans mitt Frequency [GHz] er RF transmit power 50 Ω load, at antenna Class 1 device GFSK b) RF transmit power 50 Ω load, at antenna Class 1 device EDR2, π/4 DQPSK b) Unit Limit BT 2.402 2,7 5,5 2.441 4,7 7,5 2.480 5,7 8,5 2.402 GFSK 2,0 2.402 π/4 DQPSK 0,9 2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference VSUP = 2,5V to 3,6V, Tamb = -30°C Measured conducted according to BT specification v1.2/2.0/2.0 + EDR/2.1/2.1 + EDR/3.0/3.0 + HS/4.0 Trans mitt Frequency [GHz] er RF transmit power 50 Ω load, at antenna Class 1 device GFSK b) RF transmit power 50 Ω load, at antenna Class 1 device EDR2, π/4 DQPSK b) Unit Limit BT 2.402 2,7 3,5 2.441 4,7 6,5 2.480 5,7 7,5 2.402 GFSK -0,5 2.402 π/4 DQPSK -1,9 2.441 GFSK 2,5 2.441 π/4 DQPSK 1,2 2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference VSUP = 2,5V to 3,6V, Tamb = +85°C Measured conducted according to BT specification v1.2/2.0/2.0 + EDR/2.1/2.1 + EDR/3.0/3.0 + HS/4.0 Unit Frequency [GHz] Limit BT Transmitter RF transmit power 50 Ω load, at antenna Class 1 device GFSK b) RF transmit power 50 Ω load, at antenna Class 1 device EDR2, π/4 DQPSK b) 2.402 1,8 4,0 2.441 3,8 6,0 2.480 4,8 7,0 2.402 GFSK 0,3 2.402 π/4 DQPSK -0,8 2.441 GFSK 2,8 2.441 π/4 DQPSK 1,7 2.480 GFSK 4,0 2.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.7.3 BLE Receiver VSUP = 2,5V to 3,6V, Tamb = +20°C Measured conducted according to BT specification RF-PHY.TS/4.0.1 Receiver Frequ /GHz Sensitivity at 30,8% PER 2,402 2,440 2,480 Reported PER during PER report integrity test 2,426 Maximum received signal at 30,8% PER Continuous power required to 0,030 - 2,000 block Bluetooth reception at 2,000 - 2,400 67dBm with 0,1%PER 2,500 -3,000 3,000 .
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.7.4 BLE Transmitter VSUP = 2,5V to 3,6V, Tamb = +20°C Measured conducted according to BT specification RF-PHY.TS/4.0.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference VSUP = 2,5V to 3,6V, Tamb = +85°C Measured conducted according to BT specification RF-PHY.TS/4.0.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.7.5 Antenna-Gain and Radiation Pattern If BlueMod+SR/AI is integrated into an end product while the recommendations depicted in 6.4 Placement Recommendation are maintained, the following typical antenna radiation patterns can be expected. Radiation Pattern will depend on the end products PCB size, masses in the antenna environment, housing material and geometrics. Y Z X Figure 11: Typical Antenna Radiation Pattern at 2402MHz Release r04d01 www.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Y Z X Figure 12: Typical Antenna Radiation Pattern at 2441MHz Y Z X Figure 13: Typical Antenna Radiation Pattern at 2480MHz Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 5.8 Power-Up Time The time until the BlueMod+SR is able to accept link requests or serial data depends on the firmware version. In the SPP firmware version 1.103 the module is command ready after at least 1,1 s. Bluetooth links are accepted tbd s after reset. Note: For further information refer to the document BlueMod+SR_Startup_Timing_r01 [6] Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 6 Mechanical Characteristics 2,6 Dimensions 2,5 6.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 6.2 Recommended Land Pattern A1 A2 A3 A4 A5 A6 A7 A8 B1 B2 B3 B4 B5 B6 B7 B8 C1 C2 C3 C4 C5 C6 C7 C8 D1 D2 D3 D4 D5 D6 D7 D8 E1 E2 E3 E4 E5 E6 E7 E8 F1 F2 F3 F4 F5 F6 F7 F8 1,25 17,0 10,0 5x1,5=7,5 1,25 7x1,5=10,5 0,9 Figure 16: BlueMod+SR Land Pattern Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 6.3 Re-flow Temperature-Time Profile The data here is given only for guidance on solder and has to be adapted to your process and other re-flow parameters for example the used solder paste. The paste manufacturer provides a reflow profile recommendation for his product.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 6.4 Placement Recommendation 20 To achieve best radio performance for BlueMod+SR/AI, it is recommended to use the placement shown in Figure 18. 17 4,5 max.0,5 15 10 40 max.0,5 10 no bare copper (exept solder pads for module) no copper and components on any layer no components on any layer 20 10 no conductive parts allowed provide solid ground plane(s) as large as possible around area Figure 18: BlueMod+SR/AI Placement Recommendation 6.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference case to be checked within the final integration environment. Adjacent PCBs, components, cables, housings etc. could otherwise influence the radiation pattern or be influenced by the radio wave energy. It must be ensured that the antenna is not co-located or operating in conjunction with any other antennas, transmitters, cables or connectors. When the internal ceramic antenna is used, certain restrictions are to be considered. tbd 6.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 7 Application Diagram The following schematic shows a typical application of BlueMod+SR. The module is connected to some MCU running the application layer. MCU and BlueMod+SR use the same 3,3V power supply. Provisions are made for upgrading the firmware (BOOT0 and EXT-RES# are managed by the MCU). The serial interface has RTS/CTS flow control but no UICP support in this example. The Hangup feature to close down the link is provided.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8 Approvals/Certifications The BlueMod+SR/AI has been tested to comply to the appropriate EU, FCC and IC directives. CE testing is intended for end products only. Therefore CE testing is not mandatory for a Bluetooth Module sold to OEM’s. Stollmann E+V GmbH provides CE tested Modules for customers in order to ease CE compliance assessment of end products and to minimize test effort. 8.1 Declaration of Conformity CE tbd Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.2 FCC Compliance The BlueMod+SR/AI has been tested to fulfill the FCC requirements. Test reports are available on request. Grants of the Full Modular Approval will be shown below. For selling products implementing the BlueMod+SR/AP in the USA you’ll have to apply for a Class II Permissive Change from the FCC authorities. Depending on antenna gain and other factors the FCC TCB will issue a reduced test plan for re-testing.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Consult the dealer or an experienced radio/TV technician for help. 8.2.5 FCC RF-exposure Statement The BlueMod+SR/AI complies with the FCC/IC RF radiation exposure limits set forth for an uncontrolled environment. The output power is < 10mW e.i.r.p.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.2.6 FCC Labeling Requirements for the End Product Any End Product integrating the BlueMod+SR/AI or /AP must be labeled with at least the following information: This device contains transmitter with FCC ID: RFRMSR IC: 4957A-MSR Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.3 IC Compliance The BlueMod+SR/AI has been tested to fulfill the IC requirements. Test reports RSS-210 of Industry Canada are available on request. Grants of the Full Modular Approval will be shown below. For selling products implementing the BlueMod+SR/AP in Canada you’ll have to apply for a Class II Permissive Change from the IC authorities. Depending on antenna gain and other factors the IC TCB will issue a reduced test plan for re-testing.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.3.2 IC Statement (i) Ce dispositif doit être installé et exploité dans une enceinte entièrement fermée afin de prévenir les rayonnements RF qui pourraient autrement perturber la navigation aéronautique. L’installation doit être effectuée par des installateurs qualifiés, en pleine conformité avec les instructions du fabricant.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.3.5 IC Labeling Requirements for the End Product Any end product integrating the BlueMod+SR/AI or /AP must be labeled with at least the following information: This device contains transmitter with 8.3.6 FCC ID: RFRMSR IC: 4957A-MSR IC Label Information BlueMod+SR The BlueMod+SR shows no IC-ID on the product label, because there is no space available. IC allows on request to state the IC-ID in the product manual.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.4 Bluetooth Qualification The BlueMod+SR is a qualified design according to the Bluetooth Qualification Program Reference Document (PRD) V2.1. The Qualified Design ID (QDID) is: tbd For further information about marking requirements of your product attention should be paid the Bluetooth Product Marking Guide at https://www.bluetooth.org/Download/Marking_Guide_20060601.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 8.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 10 Packing The BlueMod+SR modules are packed using carrier tape.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 10.1 Tape +0,2 -0,10 -0,2 11,5 24,0 -0,1 +0,1 18,3 +0,1 -0,1 0,5 10,9 R 3,0 -0,3 10x4,0=40,0 -0,1 -0,1 +0,1 -0,0 +0,3 2,0 +0,1 +0,1 0,3 1,5 1,75 12,0 +0,10 The dimensions of the tape are shown in the drawing below (values in mm): 10.2 Reel tbd Release r04d01 www.stollmann.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Label Information 10.3 Package Label Package box, dry shield bag and reel are each marked with the following label: Stollmann E+V GmbH name p/n firmware BlueMod+SR/Ax xxxxx-yy SR/Vx.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference 11 Ordering Information 11.1 Part Numbers BlueMod+SR is available in the following variants: Name Antenna Order No. MOQ / Comments units BlueMod+SR/AI internal 53231-xx 50 BlueMod+SR/AP external 53252-xx 500 BlueEva+SR Internal 53249-xx 1 Evaluation Kits Other variants on request, please contact Stollmann sales department. 11.2 Standard Packing Unit The standard packing unit is 500 pieces Tape and Reel 11.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference History Version Release Date By Change description r02 04.02.2013 MW/JW First preliminary release r03 21.02.
BlueMod+SR/AI BlueMod+SR/AP Hardware Reference Stollmann Entwicklungs- und Vertriebs-GmbH Mendelssohnstraße 15 D 22761 Hamburg Germany Release r04d01 Phone: +49 (0)40 890 88-0 Fax: +49 (0)40 890 88-444 E-mail: info@stollmann.de www.stollmann.de www.stollmann.