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1 2 3 4 | User Manual | Users Manual | 513.39 KiB |
BT111: Bluetooth Smart Ready HCI Module DATA SHEET Monday, 28 January 2013 Version 1.2 Copyright 2000-2013 Bluegiga Technologies All rights reserved. Bluegiga Technologies assumes no responsibility for any errors which may appear in this manual. Furthermore, Bluegiga Technologies reserves the right to alter the hardware, software, and/or specifications detailed here at any time without notice and does not make any commitment to update the information contained here. Bluegigas products are not authorized for use as critical components in life support devices or systems. The WRAP is a registered trademark of Bluegiga Technologies The Bluetooth trademark is owned by the Bluetooth SIG Inc., USA and is licensed to Bluegiga Technologies. All other trademarks listed herein are owned by their respective owners. Bluegiga Technologies Oy VERSION HISTORY Version Comment 1.0 1.1 1.2 First public release Minor changes FCC and CE update Bluegiga Technologies Oy 5.1 6.3 6.1 6.2 7.1 7.2 7.3 7.4 TABLE OF CONTENTS 1 BT111 Product numbering ........................................................................................................................... 7 2 Block Diagram .............................................................................................................................................. 8 3 Pinout and Terminal Descriptions ................................................................................................................ 9 4 External Dimensions and Land Pattern ...................................................................................................... 11 Layout Guide Lines ..................................................................................................................................... 12 5 BT111-A Layout Guide ....................................................................................................................... 12 6 Electrical Characteristics ............................................................................................................................ 14 Absolute Maximum Ratings ............................................................................................................... 14 Input/Output Terminal Characteristics ................................................................................................ 14 6.2.1 USB Linear Regulator ................................................................................................................... 14 6.2.2 High-voltage Linear Regulator ...................................................................................................... 15 6.2.3 Digital ............................................................................................................................................ 15 Current Consumption ......................................................................................................................... 16 7 RF Characteristics ...................................................................................................................................... 19 Transmitter Characteristics ................................................................................................................ 19 Receiver Characteristics .................................................................................................................... 20 Radiated Spurious Emissions ............................................................................................................ 21 Antenna Characteristics ..................................................................................................................... 21 8 Clock Generation ........................................................................................................................................ 22 9 Bluetooth Stack Microcontroller .................................................................................................................. 23 10 Programmable I/O Ports ......................................................................................................................... 23 11 Wi-Fi Coexistence Interface .................................................................................................................... 23 12 Memory Management ............................................................................................................................. 24 12.1 Memory Management Unit ................................................................................................................. 24 12.2 System RAM ...................................................................................................................................... 24 Internal ROM Memory (5Mb) ............................................................................................................. 24 12.3 12.4 Internal EEPROM ............................................................................................................................... 24 Serial Interfaces ...................................................................................................................................... 25 13.1 USB Interface ..................................................................................................................................... 25 13.2 Programming and Debug Interface .................................................................................................... 25 Audio Interfaces ...................................................................................................................................... 26 14.1 PCM Interface .................................................................................................................................... 26 14.1.1 PCM Interface Master/Slave ......................................................................................................... 26 14.1.2 Long Frame Sync .......................................................................................................................... 27 14.1.3 Short Frame Sync ......................................................................................................................... 27 14.2 Multi-slot Operation ............................................................................................................................ 28 14.2.1 GCI Interface ................................................................................................................................. 28 13 14 Bluegiga Technologies Oy 15 16 17 14.2.2 Slots and Sample Formats ............................................................................................................ 29 14.2.3 Additional Features ....................................................................................................................... 30 14.2.4 PCM Timing Information ............................................................................................................... 31 14.2.5 PCM_CLK and PCM_SYNC Generation ...................................................................................... 34 14.2.6 PCM Configuration ........................................................................................................................ 35 14.3 Digital Audio Interface (I2S) ................................................................................................................ 35 Power Control and Regulation ................................................................................................................ 40 15.1 Voltage Regulator Enable .................................................................................................................. 40 15.2 USB Linear Regulator ........................................................................................................................ 40 15.3 High Voltage Linear Regulator ........................................................................................................... 40 15.4 Low Voltage Linear Regulators .......................................................................................................... 41 15.5 Powering Sequence ........................................................................................................................... 41 15.6 Reset .................................................................................................................................................. 41 Example Schematic ................................................................................................................................ 42 Software .................................................................................................................................................. 43 17.1 On-chip Software ................................................................................................................................ 44 17.1.1 Bluetooth HCI Stack ...................................................................................................................... 44 17.1.2 Latest Feature of the HCI Stack .................................................................................................... 44 Soldering Recommendations .................................................................................................................. 45 Certifications ........................................................................................................................................... 46 19.1 Bluetooth ............................................................................................................................................ 46 19.2 FCC/IC (USA/Canada) ....................................................................................................................... 46 19.2.1 FCC et IC ...................................................................................................................................... 47 19.3 CE (Europe) ....................................................................................................................................... 48 19.4 KCC (South-Korea) ............................................................................................................................ 49 Japan .................................................................................................................................................. 49 19.5 20 Moisture Sensitivity Level (MSL) classification ....................................................................................... 50 21 Packaging and Reel Information ............................................................................................................. 51 Contact Information................................................................................................................................. 52 22 18 19 Bluegiga Technologies Oy BT111: Bluetooth Smart Ready HCI Module DESCRIPTION a is for low and cost classic connectivity BT111 ultra-
small Bluetooth Smart Ready HCI module that applications where is designed both Bluetooth and Bluetooth low energy is needed. BT111 integrates a Bluetooth 4.0 dual mode radio, HCI software stack, USB interface and an antenna. BT111 is compatible with Windows and Linux operating systems and Microsoft and BlueZ Bluetooth stacks and offers OEMs fast to integrate Bluetooth 4.0 connectivity into their applications. APPLICATIONS way free and risk Health and fitness gateways Point of sale M2M connectivity Automotive aftermarket Personal navigation devices Consumer electronics Industrial and home automation gateways KEY FEATURES Bluetooth v.4.0, dual mode compliant Support Bluetooth classic Supports Bluetooth low energy master mode Radio capabilities Interfaces Transmit power: +8dBm Receiver sensitivity: -89dBm Line-of-sight range: 100+ meters Integrated antenna HCI over USB host interface 802.11 co-existence interface Software programmable GPIO PCM or I2S audio interfaces Supply voltage: 1.7V to 3.6V or 3.1V to Temperature range: -30C to +85C Ultra compact size: 13.05mm x 9.30mm Bluetooth, CE, FCC, IC and South-Korea 3.6V qualified PHYSICAL OUTLOOK Bluegiga Technologies Oy 1 BT111 Product numbering Antenna:
A
= Internal BT111-A-HCI Firmware revision Available products and product codes Product code Description BT111-A-HCI BT111 Bluetooth 4.0 HCI module with integrated antenna Bluegiga Technologies Oy Page 7 of 52 2 Block Diagram Antenna BPF RF 26MHz XTAL CSR8510 RAM ROM MMU MCU 32k EEPROM PIO3 PIO4 PIO0 PIO1 PIO2 PIO5 I/O 3 x LDO 1V3 LDO 3V3 LDO 1V8 SPI / PCM USB 5V0 3V3 1V8 Figure 1: Block diagram of BT111 CSR8510 BT111 is based on CSR8510 dual mode chip. The chip includes all the functions required for a complete Bluetooth radio with on chip LDO regulators. The chip provides SPI, PCM and USB interfaces. Up to 4 general purpose I/Os are available for general usage, such as Wi-Fi coexistence or general indicators. Antenna Antenna is a ceramic monopole chip antenna. See the antenna characteristics in chapter 7. Band Pass Filter The band pass filter filters the out of band emissions from the transmitter to meet the specific regulations for type approvals of various countries. 32k EEPROM The embedded 32k EEPROM can be used to store customizable parameters, such as maximum TX power, PCM configuration, USB product ID, USB vendor ID and USB product description. 26MHz Crystal The embedded 26MHz crystal is used for generating the internal digital clocks. Bluegiga Technologies Oy Page 8 of 52 3 Pinout and Terminal Descriptions 1 2 3 4 5 6 7 8 9 10 GND USB-
USB+
PCM_SYNC/SPI_CS/PIO23 PIO5 PIO2 PCM_CLK/SPI_CLK/PIO24 PCM_IN/SPI_MOSI/PIO21 GND VREG_IN_HV 0 O P I GND VREG_EN_RST#
VDD_PADS VREG_OUT_HV VREG_IN_USB VDD_HOST 21 20 19 18 17 16 L E S _ M C P _ I P S 1 0 O P I D N G I 2 2 O P
O S I M _ I P S
T U O _ M C P 1 1 2 1 3 1 4 1 5 1 Figure 2: BT111 Power Supply Pin No. Pad Type Description VREG_EN_RST#
VREG_IN_HV VREG_OUT_HV VREG_IN_USB VDD_HOST VDD_PADS 20 10 18 17 16 19 Input with strong internal pull-down Analogue regulator input / output Analogue regulator output Analogue regulator input VDD VDD Take high to enable internal regulators. Also acts as active low reset. Maximum voltage is VDD_PADS Note: USB regulator is always enabled and not controlled by this pin Input to internal high-voltage regulator to 1.8V regulator, 3.3V output from USB regulator. Output from internal high-voltage to 1.8V regulator. Input to second stage internal regulators. Input to USB regulator. Connect to external USB bus supply, e.g. USB_VBUS USB system positive supply Positive supply for digital I/O pads Table 1: Supply Terminal Descriptions Bluegiga Technologies Oy Page 9 of 52 PIO Port Pin No. Pad Type Supply Domain Description PIO0 PIO1 PIO2 PIO5 11 13 6 5 Bidirectional, tristate, with weak internal pull-
down VDD_PADS Programmable input/output line Table 2: I/O Terminal Descriptions PCM Interface Pin No. Pad Type Supply Domain Description PCM_OUT/
SPI_MISO/
PIO22 PCM_IN/
SPI_MOSI/
PIO21 PCM_SYNC/
SPI_CS#/
PIO23 PCM_CLK/
SPI_CLK/
PIO24 Output, tristate, with weak internal pull-
down Input, tristate, with weak internal pull-
down Bidirectional, tristate, with weak internal pulldown 12 8 4 7 VDD_PADS SPI_PCM#_SEL 14 Input with weak internal pull-down PCM syncronous data output SPI data output Programmable input/output line PCM syncronous data input SPI data input Programmable input/output line PCM syncronous dara sync SPI chip select, active low Programmable input/output line PCM syncronous data clock SPI clock Programmable input/output line High switches SPI/PCM lines to SPI, low switches SPI/PCM lines to PCM/PIO use Table 3: PCM Interface USB Interface Pin No. Pad Type Supply Domain Description USB+
USB-
3 2 USB data plus with selectable internal 1.5k pull-up resistor Bidirectional VDD_HOST USB data minus Table 4: USB Interface Bluegiga Technologies Oy Page 10 of 52 4 External Dimensions and Land Pattern Figure 3: Footprint (top view) 1.9mm (+/- 10%) 2.1mm (+/- 10%) 7.3mm (+/- 0.1mm) 13.05mm (+/- 0.1mm)
. 9 3 m m
0 1 m m
) Figure 4: External dimensions Bluegiga Technologies Oy Page 11 of 52 5 Layout Guide Lines Use good layout practices to avoid excessive noise coupling to supply voltage traces or sensitive analog signal traces. If using overlapping ground planes use stitching vias separated by max 3 mm to avoid emission from the edges of the PCB. Connect all the GND pins directly to a solid GND plane and make sure that there is a low impedance path for the return current following the signal and supply traces all the way from start to the end. A good practice is to dedicate one of the inner layers to a solid GND plane and one of the inner layers to supply voltage planes and traces and route all the signals on top and bottom layers of the PCB. This arrangement will make sure that any return current follows the forward current as close as possible and any loops are minimized. Signals GND Power Signals Figure 5: Typical 4-layer PCB construction Overlapping GND layers without GND stitching vias Overlapping GND layers with GND stitching vias shielding the RF energy Figure 6: Use of stitching vias to avoid emissions from the edges of the PCB 5.1 BT111-A Layout Guide For optimal performance of the antenna place the module at the corner of the PCB of the mother board as shown in the figure 7. Optionally the module can be placed on the long edge of the mother board. In this case the metal clearance area must be extended minimum 10mm from the edge of the module, as shown in figure 7. The layout of the mother board has an impact on the antenna characteristic and radiation pattern, see the antenna characteristics chapter. Do not place any metal (traces, components, battery etc.) within the clearance area of the antenna. Connect all the GND pins directly to a solid GND plane. Place the GND vias as close to the GND pins as possible. Use good layout practices to avoid any excessive noise coupling to signal lines or supply voltage lines. Avoid placing plastic or any other dielectric material closer than 5 mm from the antenna. Any dielectric closer than 5 mm from the antenna will detune the antenna to lower frequencies. The antenna is optimized for mother board thickness of 1.0 mm. If the mother board is thicker than this, the resonant frequency will be tuned downwards. If the mother board thickness is thinner than 1.0 mm, the Bluegiga Technologies Oy Page 12 of 52 resonant frequency will be tuned upwards. S11 is a measure of how big portion of the transmitted power is reflected back from the antenna. An adequate performance can be expected if S11 is less than 7 dB. If using PCB thickness more than 1.6 mm, or if there is dielectric material around the antenna which is likely to detune the resonant frequency, the antenna can be tuned in the mother board layout by removing FR4 below the antenna. Min. 10mm BT111 Mother board BT111 Mother board Metal clearance area Figure 7: Recommended layouts for BT111-A Figure 8: Impedance matching of the antenna of BT111 with two different mother board PCB thickness Bluegiga Technologies Oy Page 13 of 52 6 Electrical Characteristics 6.1 Absolute Maximum Ratings Rating Storage temperature VREG_IN_USB VREG_IN_HV VDD_HOST VDD_PADS Other terminal voltages Min
-40
-0.2
-0.2
-0.2
-0.2 Max
+85 5.85 4.9 3.7 3.7 Unit C V V V V V VSS - 0.4V VDD + 0.4 V Table 5: Absolute maximum ratings Rating Min Max Unit Operating temperature VREG_IN_USB VREG_IN_HV VDD_HOST VDD_PADS (*
*) NOTE: The internal EEPROM is powered from VDD_PADS. To write the EEPROM, minimum supply voltage is 2.7V and maximum is 3.3V. For reading the EEPROM the minimum supply voltage is 1.7V and the maximum is 3.6V.
+85 5.75 4.8 3.6 3.6(*
-30 4.25 2.3 3.1 1.7(*
C V V V V Table 6: Recommended operating conditions 6.2 Input/Output Terminal Characteristics 6.2.1 USB Linear Regulator Rating Input voltage Output voltage Output current Min 4.25 3.2
Typ 5.0 3.3
Max 5.75 3.4 150 Table 7: USB linear regulator Unit V V mA Bluegiga Technologies Oy Page 14 of 52 6.2.2 High-voltage Linear Regulator Normal Operation Input voltage Output voltage Temperature coefficient Output noise (frequency range 100Hz to 100kHz) Settling time (settling ti within 10% of final value) Output current Quiescent current (excluding load, Iload <1mA) Low-power Mode Quiescent current (excluding load, Iload
<100A) Min 2.3 1.75
-200
30 14 Typ 3.3 1.85
40 18 Max 4.8 1.95 200 0.4 5 100 60 23 Unit V V ppm/C mV rms s mA A A Table 8: High-voltage Linear Regulator 6.2.3 Digital Normal Operation Input Voltage VIL input logic level low VIH input logic level high Output Voltage VOL output logic level low, IOL = 4.0mA VOH output logic level high, IOL = 4.0mA Input and Tristate Currents Strong pull-up Striong pull-down Weak pull-up Weak pull-down CI input capacitance Min
-0.4 0.7 x VDD
0.75 x VDD
-150 10
-5 0.33 1.0 Typ Max Unit
-40 40
-1.0 1.0
0.4 VDD + 0.4 0.4
-10 150
-0.33 5.0 5.0 V V V V A A A A pF Table 9: Digital I/O characteristics Bluegiga Technologies Oy Page 15 of 52 6.3 Current Consumption Normal Operation Idle USB Suspend Inguiry File Transfer LE Connected (Master) LE Scan (Master) Peak
(8 dBm) 73 73 74 48 AVG 5 200 51 58
Unit mA A mA mA mA mA
*) LE AVG current consumption depends on the chosen TX interval and scanning window Table 10: Current consumption of BT111 with 8 dBm TX power TX Peak = 73 mA Peak = 14 mA 6.5 ms Figure 9: Current consumption profile while creating a SPP connection Peak = 48 mA BGND Current = 6.4 mA Window = 50 ms Figure 10: LE scanning with 50 ms window Bluegiga Technologies Oy Page 16 of 52 Peak = 74 mA AVG = 7.7 mA
(with 70 ms interval) 500 s Figure 11: LE connected with 70 ms interval Figure 12: BDR Peak current vs TX power Bluegiga Technologies Oy Page 17 of 52 Figure 13: LE peak current vs. TX power Bluegiga Technologies Oy Page 18 of 52 7 RF Characteristics 7.1 Transmitter Characteristics RFCharacetristics,VDD=3.3V@room temperatureunlessotherwisespecified maximum RF Transmit Power RF power variation over temperature range RF power variation over supply voltage range RF power variation over BT band (*
RF power control range
-21 20dB band width for modulated carrier ACP (1 F = F0 2MHz F = F0 3MHz F = F0 > 3MHz Drift rate F1avg F1max F2avg / F1avg Min Typ Max 10 0.2 8 8 1.5 2 10 165 168 0.9 Unit dBm dB dB dB dBm kHz kHz kHz kHz Bluetooth Specification 20
1000
-20
-40
-40
+/-25 140<175 140<175
>=0.8
*) Channel 0 @2402Mhz has generally 1.0 dB lower TX power than all the other channels. All the channels between 2403 MHz and 2480 MHz are within 0.5 dB. Table 11: Transmitter Characteristics, BDR Bluegiga Technologies Oy Page 19 of 52 Figure 14: Power control steps of BT111 7.2 Receiver Characteristics RFcharacteristis,VDD=3.3V, roomtemperature Packettype Min Typ Max Sensitivity for 0.1% BER Sensitivity variation over BT band (*
DH1 DH3 DH5 2-DH5 3-DH5 All
-89
-89
-89
-92
-85 2 Bluetooth Spefication
-70 Unit dBm dBm dBm dBm dBm dB Sensitivity variation over temperature range dB
*) Channel 0 @2402Mhz is generally 1.5dB less sensitive than all the other channels. All the channels between 2403 MHz and 2480 MHz are within 0.5 dB. TBD All Table 12: BDR and EDR receiver sensitivity Bluegiga Technologies Oy Page 20 of 52 7.3 Radiated Spurious Emissions Standard Band/Frequency 2nd harmonic 3rd harmonic Band edge 2390MHz Band edge 2483.5MHz Band edge 2400MHz
(conducted) Band edge 2483.5MHz
(conducted) Band edge 2400MHz 2nd harmonic 3rd harmonic FCC part 15 transmitter spurious emissions ETSI EN 300 328 transmitter spurious emissions ETSI EN 300 328 receiver spurious
(2400 - 2479) MHz
(1600 - 1653) MHz Min
(AVG/
PEAK) Typ
(AVG/
PEAK) 51 / 58
< 50 Max
(AVG/
PEAK)
-42
-36
<-40
<-70
<-70 LimitbytheStandard
(AVG/PEAK) 54 / 74 54 / 74 54 / 74 54 / 74
-20
-20
-30
-30
-30
-47
-47 Unit dBuV/m dBuV/m dBuV/m dBuV/m dBc dBc dBm dBm dBm dBm dBm Table 13: Radiated Spurious Emissions 7.4 Antenna Characteristics The antenna is a standard monopole chip antenna. The radiation pattern is strongly dependent on the layout of the mother board. Usually the gain is highest to the directions where there is most GND and weakest to the opposite direction. Typically the total radiated efficiency is around 25% - 35%. The maximum gain is 0.5 dBi. Bluegiga Technologies Oy Page 21 of 52 8 Clock Generation BT111 is using an internal 26 MHz crystal oscillator. All internal digital clocks are generated using a phase locked loop, which is locked to the 26 MHz crystal oscillator. 26 MHz clock is calibrated in production and the calibrated settings are stored to the internal EEPROM of BT111. The 32.768 kHz sleep clock is generated internally to the module. BT111 does not need any external clock sources. Bluegiga Technologies Oy Page 22 of 52 9 Bluetooth Stack Microcontroller BT111 uses a 16-bit RISC MCU for low power consumption and efficient use of memory. The MCU, interrupt controller and event timer run the Bluetooth software stack and control the Bluetooth radio and host interfaces. 10 Programmable I/O Ports See the Device Terminal Functions section for the list of supplies to the PIOs. PIO lines are configured through software to have either weak or strong pull-ups or pull-downs. All PIO lines are configured as inputs with weak pull-downs at reset and have additional individual bus keeper configuration. The default configuration for all the IO pins is input with weak pull-up. 11 Wi-Fi Coexistence Interface Dedicated hardware is provided to implement a variety of Wi-Fi coexistence schemes. There is support for:
Channel skipping AFH Priority signaling Channel signaling Host passing of channel instructions The BT111 supports the Wi-Fi coexistence schemes:
Unity-3 Unity-3e Unity+
Contact support (support@bluegiga.com) for more information Bluegiga Technologies Oy Page 23 of 52 12 Memory Management 12.1 Memory Management Unit The MMU provides a number of dynamically allocated ring buffers that hold the data that is in transit between the host and the air. The dynamic allocation of memory ensures efficient use of the available RAM and is performed by a hardware MMU to minimize the overheads on the processor during data/voice transfers. 12.2 System RAM 56KB of integrated RAM supports the RISC MCU and is shared between the ring buffers for holding voice/data for each active connection and the general-purpose memory required by the Bluetooth stack. 12.3 Internal ROM Memory (5Mb) 5Mb of internal ROM memory is available on BT111. This memory is provided for system firmware, storing BT111 settings and program code. 12.4 Internal EEPROM 32Kb internal EEPROM is available on BT111 to store device specific configuration information (PS Keys) such as Bluetooth address, USB descriptors, PCM configuration and maximum TX power. The internal EEPROM is powered from VDD_PADS. The minimum supply voltage writing the EEPROM is 2.7V and the minimum supply voltage for reading the EEPROM is 1.7V. Bluegiga Technologies Oy Page 24 of 52 13 Serial Interfaces 13.1 USB Interface BT111 has a full-speed (12Mbps) USB interface for communicating with other compatible digital devices. The USB interface on BT111 acts as a USB peripheral, responding to requests from a master host controller. BT111 supports the Universal Serial Bus Specification, Revision v2.0 (USB v2.0 Specification) and USB Battery Charging Specification, available from http://www.usb.org. For more information on how to integrate the USB interface on BT111 see the WTxx / BTxxx USB Design Guide. As well as describing USB basics and architecture, the application note describes:
Power distribution for high and low bus-powered configurations Power distribution for self-powered configuration, which includes USB VBUS monitoring USB enumeration Electrical design guidelines for the power supply and data lines, as well as PCB tracks and the effects of ferrite beads USB suspend modes and Bluetooth low-power modes:
Global suspend Selective suspend, includes remote wake Wake on Bluetooth, includes permitted devices and set-up prior to selective suspend Suspend mode current draw PIO status in suspend mode Resume, detach and wake PIOs Battery charging from USB, which describes dead battery provision, charge currents, charging in suspend Modes and USB VBUS voltage consideration USB termination when interface is not in use Internal modules, certification and non-specification compliant operation See chapter 17 for the default USB vendor and product ID settings. 13.2 Programming and Debug Interface This SPI programming and debug interface can configure the PS Keys stored in the internal EEPROM and can also debug BT111. Bluegiga provides the development and production tools to communicate over this interface from a PC. BT111 uses a 16-bit data and 16-bit address programming and debug interface. Transactions occur when the internal processor is running or is stopped. Data is written or read one word at a time, or the auto-increment feature is available for the block access. Configuring the parameters of the BT111 and running test scripts is also possible via the USB interface with certain limitations; please see Section 14 for more information. Bluegiga Technologies Oy Page 25 of 52 14 Audio Interfaces BT111 has digital audio interface that is configurable as either a PCM or I2S port. 14.1 PCM Interface The audio PCM interface on the BT111 supports:
Continuous transmission and reception of PCM encoded audio data over Bluetooth. Processor overhead reduction through hardware support for continual transmission and reception of PCM data. A bidirectional digital audio interface that routes directly into the baseband layer of the firmware. It does not pass through the HCI protocol layer. Hardware on BT111 for sending data to and from a SCO connection. Up to 3 SCO connections on the PCM interface at any one time. PCM interface master, generating PCM_SYNC and PCM_CLK. PCM interface slave, accepting externally generated PCM_SYNC and PCM_CLK. Various clock formats including:
o Long Frame Sync o Short Frame Sync o GCI timing environments 13-bit or 16-bit linear, 8-bit -law or A-law companded sample formats. Receives and transmits on any selection of 3 of the first 4 slots following PCM_SYNC. The PCM configuration options are enabled by setting PSKEY_PCM_CONFIG32. 14.1.1 PCM Interface Master/Slave When configured as the master of the PCM interface, BT111 generates PCM_CLK and PCM_SYNC. PCM_OUT PCM_IN PCM_CLK PCM_SYNC 128/256/512/1536/2400kHz 8/48kHz Figure 15: BT111 as PCM master Bluegiga Technologies Oy Page 26 of 52 PCM_OUT PCM_IN PCM_CLK PCM_SYNC Up to 2400kHz 8/48kHz Figure 16: BT111 as PCM slave 14.1.2 Long Frame Sync Long Frame Sync is the name given to a clocking format that controls the transfer of PCM data words or samples. In Long Frame Sync, the rising edge of PCM_SYNC indicates the start of the PCM word. When BT111 is configured as PCM master, generating PCM_SYNC and PCM_CLK, then PCM_SYNC is 8 bits long. When BT111 is configured as PCM Slave, PCM_SYNC is from 1 cycle PCM_CLK to half the PCM_SYNC rate. Figure 17: Long Frame Sync (Shown with 8-bit Companded Sample) BT111 samples PCM_IN on the falling edge of PCM_CLK and transmits PCM_OUT on the rising edge. PCM_OUT is configurable as high impedance on the falling edge of PCM_CLK in the LSB position or on the rising edge. 14.1.3 Short Frame Sync In Short Frame Sync, the falling edge of PCM_SYNC indicates the start of the PCM word. PCM_SYNC is always 1 clock cycle long. Bluegiga Technologies Oy Page 27 of 52 Figure 18: Short Frame Sync (shown with 16-bit sample) As with Long Frame Sync, BT111 samples PCM_IN on the falling edge of PCM_CLK and transmits PCM_OUT on the rising edge. PCM_OUT is configurable as high impedance on the falling edge of PCM_CLK in the LSB position or on the rising edge. 14.2 Multi-slot Operation More than 1 SCO connection over the PCM interface is supported using multiple slots. Up to 3 SCO connections are carried over any of the first 4 slots. Figure 19: Multi-slot Operation with 2 Slots and 8-bit Companded Samples 14.2.1 GCI Interface BT111 is compatible with the GCI, a standard synchronous 2B+D ISDN timing interface. The 2 64kbps B channels are accessed when this mode is configured. Bluegiga Technologies Oy Page 28 of 52 The start of frame is indicated by the rising edge of PCM_SYNC and runs at 8kHz. Figure 20: GCI Interface 14.2.2 Slots and Sample Formats BT111 receives and transmits on any selection of the first 4 slots following each sync pulse. Slot durations are either 8 or 16 clock cycles:
8 clock cycles for 8-bit sample formats. 16 clock cycles for 8-bit, 13-bit or 16-bit sample formats. BT111 supports:
13-bit linear, 16-bit linear and 8-bit -law or A-law sample formats. A sample rate of 8ksps. Little or big endian bit order. For 16-bit slots, the 3 or 8 unused bits in each slot are filled with sign extension, padded with zeros or a programmable 3-bit audio attenuation compatible with some codecs. Bluegiga Technologies Oy Page 29 of 52 Figure 21: 16-bit Slot Length and Sample Formats 14.2.3 Additional Features BT111 has a mute facility that forces PCM_OUT to be 0. In master mode, BT111is compatible with some codecs which control power down by forcing PCM_SYNC to 0 while keeping PCM_CLK running. Bluegiga Technologies Oy Page 30 of 52 14.2.4 PCM Timing Information Symbol Parameter fmclk PCM_CLK Frequency 4MHz DDS generation. Ffrequency selection is programmable. 48MHz DDS generation. Frequency selection is programmable.
(a)
fmclkh
(a) fmclkl
PCM_SYNC frequency for SCO connection PCM_CLK high 4MHz DDS generation 4MHz DDS generation PCM_CLK low PCM_CLK jitter 48MHz DDS generation Min
2.9
980 730
Typ 128 256 512
8
Max Unit
kHz kHz ns ns 21 ns pk-pk
(a) Assumes normal system clock operation. Figures vary during low-power modes, when system speeds are reduced. Table 14: PCM Master Timing Symbol Parameter Min Typ tdmclksynch Delay time from PCM_CLK high to PCM sync high 4MHz DDS generation. 48MHz DDS generation tdmclkpout Delay time from PCM_CLK high to PCM_OUT tdmclksyncl tdmclklpoutz tdmclkhpoutz tsupinclkl thpinclkl 4MHz DDS generation Delay time from PCM_CLK low to PCM sync low (long frame sync only) Delay time from PCM_CLK low to PCM_OUT high impedance Delay time from PCM_CLK high to PCM_OUT high impedance 48MHz DDS generation Set-up time for PCM_IN valid to PCM_CLK low Hold time for PCM_CLK low to PCM_IN invalid
20 0
Max 20 40.83 20 20 40.83 20 20
Unit ns Table 15: PCM Master Mode Timing Parameters Bluegiga Technologies Oy Page 31 of 52 Figure 22: PCM Master Timing Long Frame Sync Figure 23: PCM Master Timing Short Frame Sync Bluegiga Technologies Oy Page 32 of 52 Symbol Parameter fsclk fsclk fsclkl fsclkh PCM clock frequency
(Slave mode: Input) PCM clock frequency
(GCI mode) PCM_CLK low time PCM_CLK high time Min 64 128 200 200 Typ Max Unit
2048 4096
kHz kHz ns ns Table 16: PCM Slave Timing Symbol Parameter Min Typ Max Unit fhsclksynch fsusclksynch fdpout fdsclkhpout fdpoutz fsupinsclkl fhpinsclkl Hold time from PCM_CLK low to PCM_SYNC high Set-up time for PCM_SYNC high to PCM_CLK low Delay time from PCM_SYNC or PCM_CLK, whichever is later, to valid PCM_OUT data (long frame sync only) Delay time from PCM_SYNC or PCM_CLK, whichever is later, to valid PCM_OUT data Delay time from PCM_SYNC or PCM_CLK low, whichever is later, to PCM_OUT data line high impedance Set-up time for PCM_IN valid to PCM_CLK low Hold time from PCM_CLK low to PCM_IN valid 2 20
20 2 Table 17: PCM Slave Mode Timing Parameters
15 15 20
ns Figure 24: PCM Slave Timing Long Frame Sync Bluegiga Technologies Oy Page 33 of 52 Figure 25: PCM Slave Timing Short Frame Sync 14.2.5 PCM_CLK and PCM_SYNC Generation BT111 has 2 methods of generating PCM_CLK and PCM_SYNC in master mode:
Generating these signals by DDS from BT111 internal 4MHz clock. Using this mode limits PCM_CLK to 128, 256 or 512kHz and PCM_SYNC to 8kHz. Generating these signals by DDS from an internal 48MHz clock, enables a greater range of frequencies to be generated with low jitter but consumes more power. To select this second method set bit 48M_PCM_CLK_GEN_EN in PSKEY_PCM_CONFIG32. When in this mode and with long frame sync, the length of PCM_SYNC is either 8 or 16 cycles of PCM_CLK, determined by LONG_LENGTH_SYNC_EN in PSKEY_PCM_CONFIG32. Following equation describes PCM_CLK frequency when generated from the internal 48MHz clock:
Equation 1: PCM_CLK Frequency Generated Using the Internal 48MHz Clock Set the frequency of PCM_SYNC relative to PCM_CLK using following equation:
Equation 2: PCM_SYNC Frequency Relative to PCM_CLK CNT_RATE, CNT_LIMIT and SYNC_LIMIT are set using PSKEY_PCM_LOW_JITTER_CONFIG. As an example, set PSKEY_PCM_LOW_JITTER_CONFIG to 0x08080177. PCM_SYNC PCM_CLK generate 512kHz 8kHz, with to at at Bluegiga Technologies Oy Page 34 of 52 14.2.6 PCM Configuration Configure the PCM by using PSKEY_PCM_CONFIG32 and PSKEY_PCM_LOW_JITTER_CONFIG, see your PS Key file. The default for PSKEY_PCM_CONFIG32 is 0x00800000, i.e. first slot following sync is active, 13-
bit linear voice format, long frame sync and interface master generating 256kHz PCM_CLK from 4MHz internal clock with no tri-state of PCM_OUT. 14.3 Digital Audio Interface (I2S) The digital audio interface supports the industry standard formats for IS, left-justified or right-justified. The interface shares the same pins as the PCM interface, which means each audio bus is mutually exclusive in its usage. Table 17 lists these alternative functions. PCM Interface I2S Interface PCM_OUT PCM_IN PCM_SYNC PCM_CLK SD_OUT SD_IN WS SCK Table 18: Alternative Function of the Digital Audio Bus Interface on the PCM Interface Configure the digital audio interface using PSKEY_DIGITAL_AUDIO_CONFIG. Table 18 describes the values for the PS Key (PSKEY_DIGITAL_AUDIO_CONFIG) that is used to set-up the digital audio interface. For example, to configure an I2S interface with 16-bit SD data set PSKEY_DIGITAL_CONFIG to 0x0406. Bluegiga Technologies Oy Page 35 of 52 Bit Mask Name Description D[0]
0x0001 CONFIG_JUSTIFY_FORMAT 0 for left justified, 1 for right justified D[1]
0x0002 CONFIG_LEFT_JUSTIFY_DELAY D[2]
0x0004 CONFIG_CHANNEL_POLARITY D[3]
0x0008 CONFIG_AUDIO_ATTEN_EN For left justified formats: 0 is MSB of SD data occurs in the first SCLK period following WS transition. 1 is MSB of SD data occurs in the second SCLK period. For 0, SD data is left channel when WS is high. For 1 SD data is right channel. For 0, 17 bit SD data is rounded down to 16 bits. For 1, the audio attenuation defined in CONFIG_AUDIO_ATTEN is applied over 24 bits with saturated rounding. Requires CONFIG_16_BIT_CROP_EN to be 0. D[7:4]
0x00F0 CONFIG_AUDIO_ATTEN Attenuation in 6 dB steps. D[9:8]
0x0300 CONFIG_JUSTIFY_RESOLUTION D[10]
0x0400 CONFIG_16_BIT_CROP_EN Resolution of data on SD_IN, 00=16 bit, 01=20 bit, 10=24 bit, 11=Reserved. This is required for right justified format and with left justified LSB first. For 0, 17 bit SD_IN data is rounded down to 16 bits. For 1 only the most significant 16 bits of data are received. Table 19: PSKEY_DIGITAL_AUDIO_CONFIG Bluegiga Technologies Oy Page 36 of 52 Figure 26: Digital Audio Interface Modes The internal representation of audio samples within BT111 is 16-bit and data on SD_OUT is limited to 16-bit per channel. Symbol Parameter Min Typ Max
tch tcl SCK Frequency WS Frequency SCK high time SCK low time
80 80
6.2 96
Table 20: Digital Audio Interface Slave Timing Unit MHz kHz ns ns Bluegiga Technologies Oy Page 37 of 52 Symbol Parameter Min Typ Max Unit tssu tsh topd tisu tih WS valid SCK high set-up time SCK high to WS invalid hold time SCK low to SD_OUT valid delay time SD_IN valid to SCK high set-up time SCK high to SD_IN invalid hold time 20 2.5
20 2.5 Table 21: I2C Slave Mode Timing
20
ns ns ns ns ns Figure 27: Digital Audio Interface Slave Timing Symbol
Parameter SCK Frequency WS Frequency Min Typ
Max 6.2 96 Unit MHz kHz Table 22: Digital Audio Interface Master Timing Bluegiga Technologies Oy Page 38 of 52 Symbol Parameter Min Typ Max Unit tspd topd tisu tih SCK low to WS valid delay time SCK low to SD_OUT valid delay time SD_IN valid to SCK high set-up time SCK high to SD_IN invalid hold time
18.44 0
39.27 18.44
ns ns ns ns Table 23: I2S Master Mode Timing Parameters, WS and SCK as Outputs Figure 28: Digital Audio Interface Master Timing Bluegiga Technologies Oy Page 39 of 52 15 Power Control and Regulation VREG_EN_RST#
VBUS (4.25V 5.75V) LDO 3V3 LDO 1V8 LDO 1V35 LDO 1V35 LDO 1V25 VREG_IN_HV VREG_OUT_HV
(3.3V OUT / 2.3V 4.8V IN) 1.8V OUT / 1.7V 1.95V IN Figure 29: Internal regulators and powering of BT111 15.1 Voltage Regulator Enable All the regulators are enabled, except the USB linear regulator, by taking the VREG_EN_RST# pin above 1V. Also the BT111 firmware automatically controls the regulators. Important Note:
VREG_EN_RST# should not be taken high before the supply on VREG_IN_HV is present. The VREG_EN_RST# pin is connected internally to the reset function and is powered from VDD_PADS, so do not apply voltages above VDD_PADS to the VREG_EN_RST# pin. The VREG_EN_RST# pin is pulled down internally. 15.2 USB Linear Regulator The integrated USB LDO linear regulator is available as a 3.30V supply rail and is intended to supply the USB interface and the high-voltage linear regulator. The input voltage range is between 4.25V and 5.75V. The maximum current from this regulator is 150mA. This regulator is enabled by default. If the USB linear regulator is not required leave its input (VREG_IN_USB) unconnected. 15.3 High Voltage Linear Regulator The integrated high-voltage linear regulator is available to power the main 1.8V supply rail. The input voltage range is between 2.3V and 4.8V. The maximum current from this regulator is 100mA. Take VREG_EN_RST# high to enable this regulator. Important Note:
VREG_EN_RST# should not be taken high before the supply on VREG_IN_HV is present. If this regulator is not required then leave VREG_IN_HV unconnected or tied to VREG_OUT_HV. Bluegiga Technologies Oy Page 40 of 52 15.4 Low Voltage Linear Regulators BT111 has three integrated low voltage linear regulators providing the internal supply voltages for RF and digital circuits of BT111. The input voltage range is between 1.70V and 1.95V. 15.5 Powering Sequence All the power supplies should be powered at the same time. The order of powering the supplies relative to the I/O supply, VDD_PADS to VDD_HOST, is not important. If the I/O supply is powered before VDD_DIG, all digital I/Os are weak pull-downs irrespective of the reset state. 15.6 Reset The reset function is internally tied to the VREG_EN_RST# pin. BT111 is reset from several sources:
VREG_EN_RST# pin Power-on reset Via a software-configured watchdog timer The VREG_EN_RST# pin is an active low reset. Assert the reset signal for a period >5ms to ensure a full reset. Important Note:
Bluegiga does not recommend assertions of the reset of <5ms on the VREG_EN_RST# pin, as any glitches on this line can affect I/O integrity without triggering a reset. A warm reset function is also available under software control. After a warm reset the RAM data remains available. Pin Name/Group I/O Type No Core Supply Reset Full Chip Reset VREG_EN_RST#
SPI_CLK/PCM_CLK /
PIO[24]
Digital input Digital bidirectional tristated Strong pull-down N/A Weak pull-down Weak pull-down SPI_CS# / PCM_SYNC /
PIO[23]
Digital bidirectional tristated Weak pull-up (SPI) Weak pull-down (PCM) Weak pull-up (SPI) Weak pull-down (PCM /
PIO) SPI_MISO / PCM_OUT /
PIO[22]
SPI_MOSI / PCM_OUT /
PIO[21]
PIO[5:0]
Digital output tristated Weak pull-down Weak pull-down Digital input Digital bidirectional tristated Weak pull-down Weak pull-down Weak pull-down Weak pull-down Table 24: Digital Pin States on Reset Bluegiga Technologies Oy Page 41 of 52 16 Example Schematic Figure 30: Example schematic for BT111 Bluegiga Technologies Oy Page 42 of 52 17 Software BT111 is supplied with an on-chip Bluetooth v4.0 specification qualified HCI Controller stack firmware. It also has an EEPROM chip, which allows modifications of many configuration parameters (PS-keys) of the Bluetooth chip. When the BT111 development kit is plugged into your PC, it will show up as a generic Bluetooth Controller, and the Bluetooth Host stack installed on your PC will take control of it. To access BT111s configuration parameters, which are stored on its EEPROM chip, you need the included SPI connector and PSTool software from the CSR BlueSuite tool collection. BlueSuite is available on the Bluegiga Techforum at http://techforum.bluegiga.com. PSTool contains a full list of the parameters that are possible to modify, along with their descriptions. Some common parameter keys are:
(0x0108) PSKEY_DEVICE_NAME Bluetooth name of the device
(0x02be) PSKEY_USB_VENDOR_ID USB Vendor ID, if you have your own VID and wish to use it
(Default is 0a12 which is CSRs VID)
(0x02bf) PSKEY_USB_PRODUCT_ID USB Product ID (Default is 0)
Please see the quick start guide for more information and examples. Bluegiga Technologies Oy Page 43 of 52 17.1 On-chip Software 17.1.1 Bluetooth HCI Stack Figure 26 shows an example implementation. An internal processor runs the Bluetooth stack up to the HCI. The host processor must provide all the upper layers of Bluetooth protocol including the application. PCM USB Host Trasport Device Drivers Generic Command and Event Handling Generic HCI Handling Bluetooth HCI Handling ULP HIF Handling LM ULP LL Control Handling LC: Bluetooth per Packet Code LC: ULP per packet Code LC Core Scheduler LC: Bluetooth per Packet Code LC: ULP per Packet Code 2.4GHz Radio Hardware Figure 31: Example FW Architecture 17.1.2 Latest Feature of the HCI Stack BT111 is based on Bluetooth v4.0 qualified chip CSR8510 by CSR. This introduces the following features:
Generic Alternate MAC/PHY (AMP) Generic Test Methodology for AMP 802.11 Protocol Adaptation Layer Enhanced Power Control Enhanced USB and SDIO HCI Transports HCI read Encryption Key Size command Unicast Connectionless Data For Bluetooth v3.0 + HS operation a separate 802.11 IC is used in conjunction with BT111 Bluegiga Technologies Oy Page 44 of 52 18 Soldering Recommendations BT111 is compatible with a industrial standard reflow profile for Pb-free solders. The reflow profile used is dependent on the thermal mass of the entire populated PCB, heat transfer efficiency of the oven and particular type of solder paste used. Consult the datasheet of particular solder paste for profile configurations. Bluegiga Technologies will give following recommendations for soldering the module to ensure the reliable solder joint and operation of the module after soldering. Since the profile used is process and layout dependent, the optimal profile should be studied case by case. Thus the following recommendation should be taken into account as a starting point. Refer to technical documentations of particular solder paste for profile configurations Avoid using more than one flow. Reliability of the solder joint and self-alignment of the component are dependent on the solder volume. Minimum of 150m stencil thickness is recommended. Aperture size of the stencil should be 1:1 with the pad size. A low residue, no clean solder paste should be used due to low mounted height of the component. Bluegiga Technologies Oy Page 45 of 52 19 Certifications 19.1 Bluetooth BT111 is based on Bluetooth v4.0 qualified chip CSR8510 by CSR. BT111 can be used as a controller subsystem with the Bluetooth QD ID B017701. To make a complete Bluetooth end product, Controller Subsystem is used together with a qualified Host Subsystem. 19.2 FCC/IC (USA/Canada) 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. Any changes or modifications not expressly approved by Bluegiga Technologies could void the users authority to operate the equipment. FCC RF Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. End users must follow the specific operating instructions for satisfying RF exposure compliance. This transmitter meets both portable and mobile limits as demonstrated in the RF Exposure Analysis and should not be used closer than 5 mm from a human body in portable configuration. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter except in accordance with FCC multi-transmitter product procedures. IC Statements:
This device complies with Industry Canada licence-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. OEM Responsibilities to comply with FCC and Industry Canada Regulations The BT111 module has been certified for integration into products only by OEM integrators under the following condition:
The antenna(s) must be installed such that a minimum separation distance of 5 mm is maintained between the radiator (antenna) and all persons at all times. The transmitter module must not be co-located or operating in conjunction with any other antenna or transmitter except in accordance with FCC multi-transmitter product procedures. As long as the two condition above is 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.). Bluegiga Technologies Oy Page 46 of 52 IMPORTANT NOTE: In the event that these conditions can not 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 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 FCC and Industry Canada authorization. End Product Labeling The BT111 module is labeled with its own FCC ID and IC Certification Number. If the FCC ID and IC Certification Number are not visible when the module is installed inside another device, then the outside of the device into which the module is installed must also display a label referring to the enclosed module. In that case, the final end product must be labeled in a visible area with the following:
Contains Transmitter Module FCC ID: QOQBT111 Contains Transmitter Module IC: 5123A-BGTBT111 or Contains FCC ID: QOQBT112 Contains IC: 5123A-BGTBT111 The OEM of the BT111 module must only use the approved antenna(s) listed in table 8, which have been certified with this module. The OEM integrator has to be aware not to 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. 19.2.1 FCC et IC Dclaration dIC :
Ce dispositif est conforme aux normes RSS exemptes de licence dIndustrie Canada. Son fonctionnement est assujetti aux deux conditions suivantes : (1) ce dispositif ne doit pas provoquer de perturbation et (2) ce dispositif doit accepter toute perturbation, y compris les perturbations qui peuvent entraner un fonctionnement non dsir du dispositif. Responsabilits des OEM quant la conformit avec les rglementations de FCC et dIndustrie Canada Les modules BT111 ont t certifis pour entrer dans la fabrication de produits exclusivement raliss par des intgrateurs dans les conditions suivantes :
Lantenne (ou les antennes) doit tre installe de faon maintenir tout instant une distance minimum de 5 mm entre la source de radiation (lantenne) et toute personne physique. Bluegiga Technologies Oy Page 47 of 52 Le module transmetteur ne doit pas tre install ou utilis en concomitance avec une autre antenne ou un autre transmetteur. Tant que ces deux conditions sont runies, il nest pas ncessaire de procder des tests supplmentaires sur le transmetteur. Cependant, lintgrateur est responsable des tests effectus sur le produit final afin de se mettre en conformit avec dventuelles exigences complmentaires lorsque le module est install (exemple :
missions provenant dappareils numriques, exigences vis--vis de priphriques informatiques, etc.) REMARQUE IMPORTANTE : En cas dinobservance de ces conditions (en ce qui concerne certaines configurations ou lemplacement du dispositif proximit dun autre metteur), les autorisations de FCC et dIndustrie Canada ne seront plus considres valables et lidentification de FCC et le numro de certification dIC ne pourront pas tre utiliss sur le produit final. Dans ces cas, lintgrateur OEM sera charg dvaluer nouveau le produit final (y compris lmetteur) et dobtenir une autorisation indpendante de FCC et dIndustrie Canada. tiquetage du produit final Le module BT111 est tiquet avec sa propre identification FCC et son propre numro de certification IC. Si lidentification FCC et le numro de certification IC ne sont pas visibles lorsque le module est install lintrieur dun autre dispositif, la partie externe du dispositif dans lequel le module est install devra galement prsenter une tiquette faisant rfrence au module inclus. Dans ce cas, le produit final devra tre tiquet sur une zone visible avec les informations suivantes :
Contient module metteur identification FCC : QOQBT111 Contient module metteur IC : 5123A-BGTBT111 ou Contient identification FCC : QOQBT111 Contient IC : 5123A-BGTBT111 LOEM du module BT111 ne doit utiliser que la ou les antennes approuves numres dans le tableau 8, qui ont t certifies avec ce module. Dans le guide dutilisation du produit final, lintgrateur OEM doit sabstenir de fournir des informations lutilisateur final portant sur les procdures suivre pour installer ou retirer ce module RF ou pour changer les paramtres RF. 19.3 CE (Europe) BLE112 is in conformity with the essential requirements and other relevant requirements of the R&TTE Directive (1999/5/EC). The product is conformity with the following standards and/or normative documents. EMC (immunity only) EN 301 489-17 V2.1.1 Radiated emissions EN 300 328 V1.7.1 Safety EN60950-1:2006+A11:2009+A1:2010+A12:2011 Bluegiga Technologies Oy Page 48 of 52 19.4 KCC (South-Korea) TBA 19.5 Japan TBA Bluegiga Technologies Oy Page 49 of 52 20 Moisture Sensitivity Level (MSL) classification Moisture sensitivity level (MSL) of this product is 3. Please follow the handling guidelines of the standard IPC/JEDEC J-STD-020 and J-STD-033. Bluegiga Technologies Oy Page 50 of 52 21 Packaging and Reel Information TBA Bluegiga Technologies Oy Page 51 of 52 22 Contact Information Sales:
Technical support:
sales@bluegiga.com support@bluegiga.com http://techforum.bluegiga.com orders@bluegiga.com Orders:
WWW:
Head Office / Finland:
Postal address / Finland:
Sales Office / USA:
Sales Office / Hong-Kong:
www.bluegiga.com www.bluegiga.hk Phone: +358-9-4355 060 Fax: +358-9-4355 0660 Sinikalliontie 5A 02630 ESPOO FINLAND P.O. BOX 120 02631 ESPOO FINLAND Phone: +1 770 291 2181 Fax: +1 770 291 2183 Bluegiga Technologies, Inc. 3235 Satellite Boulevard, Building 400, Suite 300 Duluth, GA, 30096, USA Phone: +852 3182 7321 Fax: +852 3972 5777 Bluegiga Technologies, Inc. 19/F Silver Fortune Plaza, 1 Wellington Street, Central Hong Kong Bluegiga Technologies Oy Page 52 of 52
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2015-11-25 | 2402 ~ 2480 | DTS - Digital Transmission System | Class II permissive change or modification of presently authorized equipment |
2 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter | ||
3 | 2013-01-28 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
4 | 2402 ~ 2480 | DTS - Digital Transmission System |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 4 | Effective |
2015-11-25
|
||||
1 2 3 4 |
2013-01-28
|
|||||
1 2 3 4 | Applicant's complete, legal business name |
Silicon Laboratories Finland Oy
|
||||
1 2 3 4 | FCC Registration Number (FRN) |
0007782659
|
||||
1 2 3 4 | Physical Address |
Alberga Business Park, Bertel Jungin aukio 3
|
||||
1 2 3 4 |
Espoo, N/A 02600
|
|||||
1 2 3 4 |
Finland
|
|||||
app s | TCB Information | |||||
1 2 3 4 | TCB Application Email Address |
h******@acbcert.com
|
||||
1 2 3 4 |
c******@ul.com
|
|||||
1 2 3 4 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 2 3 4 | Grantee Code |
QOQ
|
||||
1 2 3 4 | Equipment Product Code |
BT111
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 4 | Name |
P**** R********
|
||||
1 2 3 4 | Title |
Staff HW Engineer
|
||||
1 2 3 4 | Telephone Number |
+3589********
|
||||
1 2 3 4 | Fax Number |
+3589********
|
||||
1 2 3 4 |
p******@silabs.com
|
|||||
app s | Technical Contact | |||||
1 2 3 4 | Firm Name |
BlueGiga Technologies Inc.
|
||||
1 2 3 4 | Name |
P**** R******
|
||||
1 2 3 4 | Physical Address |
Sinikalliontie 5A
|
||||
1 2 3 4 |
Espoo, 02630
|
|||||
1 2 3 4 |
Finland
|
|||||
1 2 3 4 | Telephone Number |
+3584********
|
||||
1 2 3 4 |
p******@bluegiga.com
|
|||||
app s | Non Technical Contact | |||||
1 2 3 4 | Firm Name |
BlueGiga Technologies Inc.
|
||||
1 2 3 4 | Name |
P******** R******
|
||||
1 2 3 4 | Physical Address |
Sinikalliontie 5A
|
||||
1 2 3 4 |
Espoo, 02630
|
|||||
1 2 3 4 |
Finland
|
|||||
1 2 3 4 | Telephone Number |
+3584********
|
||||
1 2 3 4 |
p******@bluegiga.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 2 3 4 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
1 2 3 4 | Yes | |||||
1 2 3 4 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 4 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 4 | Equipment Class | DTS - Digital Transmission System | ||||
1 2 3 4 | DSS - Part 15 Spread Spectrum Transmitter | |||||
1 2 3 4 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | BT111 Bluetooth Smart Ready HCI Module | ||||
1 2 3 4 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 4 | Modular Equipment Type | Limited Single Modular Approval | ||||
1 2 3 4 | Single Modular Approval | |||||
1 2 3 4 | Purpose / Application is for | Class II permissive change or modification of presently authorized equipment | ||||
1 2 3 4 | Original Equipment | |||||
1 2 3 4 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 4 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 4 | Grant Comments | Power is conducted. Modular approval. This module is approved for use in both portable and mobile applications. Co-location with other transmitters requires use of FCC multi-transmitter product procedures. OEM integrators must supply specific operating instructions for end users and installers to satisfy RF exposure compliance requirements. Compliance of this device in all final product configurations is the responsibility of the Grantee. Class 2 Permissive Change for Limited Modular use inside specific host, as shown in this filing. | ||||
1 2 3 4 | Power is conducted. Single modular approval. This module is approved for use in both portable and mobile applications. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 5mm from all persons and must not transmit simultaneously with any other antenna or transmitter, except in accordance with FCC multi- transmitter product procedures. OEM integrators must supply specific operating instructions for end-users and installers to satisfy RF exposure compliance requirements. Compliance of this device in all final product configurations is the responsibility of the Grantee. | |||||
1 2 3 4 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 4 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 4 | Firm Name |
Prima Ricerca & Sviluppo S.r.l.
|
||||
1 2 3 4 |
UL VS LIMITED
|
|||||
1 2 3 4 | Name |
E**** B********
|
||||
1 2 3 4 |
S******** W******
|
|||||
1 2 3 4 | Telephone Number |
39-03********
|
||||
1 2 3 4 |
01256********
|
|||||
1 2 3 4 | Fax Number |
39-03********
|
||||
1 2 3 4 |
e******@primaricerca.it
|
|||||
1 2 3 4 |
s******@rfi-global.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | CC | 2402.00000000 | 2480.00000000 | 0.0068000 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2402.00000000 | 2480.00000000 | 0.0052000 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0052000 | ||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
4 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0068000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC