SENA TECHNOLOGIES IW02 BLUETOOTH MODULE User Manual ds parani bcd110 v1 0 0 20120210
Sena Technologies,Inc. BLUETOOTH MODULE ds parani bcd110 v1 0 0 20120210
USERS MANUAL
Bluetooth Class 1 OEM Module
Parani-BCD110
Product Datasheet
Version 1.0.0
February 9, 2012
Sena Technologies, Inc.
PARANI-BCD110
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Copyright
Copyright 2012, Sena Technologies, Inc. All rights reserved.
Sena Technologies reserves the right to make changes and improvements to its product without providing
notice.
Trademark
Parani™ is a trademark of Sena Technologies, Inc.
Windows® is a registered trademark of Microsoft Corporation.
Notice to Users
When a system failure may cause serious consequences, protecting life and property against such
consequences with a backup system or safety device is essential. The user agrees that protection against
consequences resulting from system failure is the user's responsibility.
This device is not approved for life-support or medical systems.
Changes or modifications to this device not explicitly approved by Sena Technologies will void the user's
authority to operate this device.
Precautions and Safety
Do not drop or subject the device to impact. Damage to your products may result from improper use.
Keep away from harsh environments including humid, dusty, and smoky areas. Damage to your products
may result from improper use.
Do not use excessive force on the buttons or attempt to disassemble the device. Damage to your products
may result from improper use.
Do not place heavy objects on the product. Damage to your products may result from improper use.
Contact Information
Technical support email: support@sena.com
Company website: http://www.sena.com
PARANI-BCD110
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Contents
1. General .......................................................................................................................................................... 4
1.1 Features ............................................................................................................................................... 4
1.2 Applications .......................................................................................................................................... 4
1.3 Device Diagram .................................................................................................................................... 5
1.4 Pin Diagram .......................................................................................................................................... 5
1.5 Pin Descriptions.................................................................................................................................... 6
1.6 Dimensions and PCB land pattern ....................................................................................................... 8
2. Electrical characteristics ............................................................................................................................... 11
2.1 Absolute maximum ratings .................................................................................................................. 11
2.2 Recommended operating conditions ................................................................................................... 11
2.3 Power Consumptions .......................................................................................................................... 11
3. RF Characteristics ....................................................................................................................................... 12
3.1 Basic Data Rate .................................................................................................................................. 12
3.1.1 Transmitter Performance .......................................................................................................... 12
3.1.2 Transceiver ............................................................................................................................... 12
3.1.3 Receiver Performance ............................................................................................................. 12
3.2 Enhanced Data Rate .......................................................................................................................... 13
3.2.1 Transmitter performance .......................................................................................................... 13
3.2.2 Receiver performance .............................................................................................................. 14
4. Device Terminal Descriptions ...................................................................................................................... 15
4.1 UART Interface ................................................................................................................................... 15
4.2 USB Interface ..................................................................................................................................... 15
4.3 I2C Interface ....................................................................................................................................... 16
4.4 PCM CODEC Interface ...................................................................................................................... 16
4.5 I/O Parallel Ports ................................................................................................................................ 16
4.6 Reset Interface ................................................................................................................................... 17
5. Application Schematic.................................................................................................................................. 18
6. Software Stack ............................................................................................................................................. 21
7. Solder Profiles ............................................................................................................................................. 22
8. Packaging Information ................................................................................................................................. 23
9. Certificate Information ................................................................................................................................. 25
9.1 FCC .................................................................................................................................................... 25
9.1.1 FCC Compliance Statement ............................................................................................... 25
9.1.2 RF Exposure Statement ..................................................................................................... 25
9.1.3 Do not ................................................................................................................................. 25
9.2 CE .................................................................................................................................................. 26
9.3 IC ................................................................................................................................................... 26
9.4 KC .................................................................................................................................................. 26
9.5 TELEC ........................................................................................................................................... 26
9.6 SIG ................................................................................................................................................. 26
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1. General
The Parani-BCD110 is a Bluetooth Class 1 OEM module for OEM manufacturers who want to implement
Bluetooth Class 1 functionality with their products cost effectively and also in timely manner. Users can build
their own antenna circuit around the BCD110 to lower the overall cost while benefit from the BCD110’s field-
proven standard SPP (Serial Port Profile) firmware provided with no additional cost.
The BCD110 supports Class 1 Bluetooth transmission level for longer communication distance typically
ranges from 100 m up to 1 km. The BCD110 supports UART, USB, I2C, PCM, PIO interfaces for the
communication with the OEM products.
The BCD110 is provided with Bluetooth v2.0 compatible firmware runs internally for SPP (Serial Port
Profile) applications by default. The SPP firmware supports up to 4 simultaneous multiple connections and is
designed to work out-of-box for real world SPP applications such as POS (Point-of-sales), industrial
automation, remote metering and other various applications. Optionally, the BCD110 can be supplied with
only software stack up to HCI level so entire Bluetooth stack runs on the host side for the application such as
USB dongles for computers, or OEM manufacturers can even develop and embed their own firmware into
the BCD110.
The BCD110 is fully qualified with Bluetooth v.2.0+EDR specification so OEM manufacturers can save cost
and time for overall OEM product certifications, which makes the BCD110 ideal solution for larger volume
and cost sensitive applications.
1.1 Features
Bluetooth Class 1
Fully qualified with Bluetooth v2.0 + EDR specification
Transmit Power: max. +20dBm
Receive sensitivity: -90dBm (0.1% BER)
Size: DIP type 16.8 x 34.6 x 7.5mm - with shield can
SMD type 14.8 x 34.6 x 3.0mm - with shield can
Extended operating temperature range: -40˚C ~ +85˚C
Integrated variable antennas
Integrated 8Mbit Flash Memory
USB, Dual UART, I2C, PCM, PIO interfaces
802.11 co-existence
Field-proven SPP (Serial Port Profile) firmware supporting up to 4 simultaneous multiple
connections
RoHS Compliant
1.2 Applications
High-speed data transceiver systems for long distance communication
PCs/Personal Digital Assistants (PDA)
Bluetooth USB dongle
Bluetooth serial dongle
Bluetooth access points
Industrial automation devices
Remote metering devices
POS (Point-of-sales) devices
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1.3 Device Diagram
Parani-BCD110
Interface Pad
or connector
Crystal
26MHz
BlueCore4 External
Flash Memory
8Mb
SPI
VCC 3.3V
RF Amplifier
Circuit
LNA
PA PIO
PCM
UART
USB
RF_IN/OUT
2.4GHz
Radio
IO
RAM
Baseband
DSP
MCU
Voltage
Regulator
1.8V core
2.4GHz
Antenna
5dBi dipole
3dBi dipole
1dBi stub
0dBi chip
2402 ~ 2480MHz
Figure 1-1 Device Diagram
1.4 Pin Diagram
Figure 1-2 Pin diagram
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1.5 Pin Descriptions
Table 1-1 Pin descriptions
Function Pin Name Pin Number Description
USB Interface USB_DP 11 USB data plus
USB_DN 10 USB data minus
UART Interface UART_TXD 8 UART data output
UART_RXD 7 UART data input
UART_RTS 6 UART request to send active low
UART_CTS 9 UART clear to send active low
PCM Interface PCM_OUT 15 Synchronous data output
PCM_IN 12 Synchronous data input
PCM_SYNC 13 Synchronous data sync
PCM_CLK 14 Synchronous data clock
SPI Interface SPI_MISO 20 SPI data output
SPI_MOSI 23 SPI data input
SPI_CSB 22 Chip select for SPI, active low
SPI_CLK 21 SPI clock
PIO Interface
PIO_2 29 Programmable input/output line
PIO_3 28 Programmable input/output line
PIO_4 24 Programmable input/output line
PIO_5 25 Programmable input/output line
PIO_6 26 Programmable input/output line
PIO_7 27 Programmable input/output line
PIO_8 30 Programmable input/output line
PIO_9 31 Programmable input/output line
PIO_10 32 Programmable input/output line
PIO_11 33 Programmable input/output line
AIO AIO_0 4 Analogue programmable input/output line
AIO_1 5 Analogue programmable input/output line
Power
PVCC 3 Power supply for power amplifier, 3.3V
+3V3 16 Power supply for system, 3.3V
GND 1, 2, 17, 19
34, 35, 36
Ground
Others RESETB 18 Reset, active low, > 5ms to cause a reset
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Table 1-2 Pin States on Reset (SPP)
Function Pin Name STATE
Define (SPP) Direction Pull-up/down
USB USB_DP - Input Weak pull-up
USB_DN - Input Weak pull-up
UART UART_TXD UART_TXD Output Tri-stated with weak pull-up
UART_RXD UART_RXD Input Weak pull-down
UART_RTS UART_RTS Output Tri-stated with weak pull-up
UART_CTS UART_CTS Input Weak pull-down
PCM PCM_OUT - Output Tri-stated with weak pull-down
PCM_IN - Input Weak pull-down
PCM_SYNC - Input Weak pull-down
PCM_CLK - Input Weak pull-down
SPI SPI_MISO - Output Tri-stated with weak pull-down
SPI_MOSI - Input Weak pull-down
SPI_CSB - Input Weak pull-up
SPI_CLK - Input Weak pull-down
PIO
PIO_2 UART_DCD Output Weak pull-down
PIO_3 UART_DTR Output Weak pull-down
PIO_4 UART_DSR Input Weak pull-up
PIO_5 FACTORY_RESET Input Weak pull-up
PIO_6 BT_MODE Input Weak pull-up
PIO_7 F/C_CTRL Output Weak pull-up
PIO_8 - Input Weak pull-down
PIO_9 - Input Weak pull-down
PIO_10 STATUS_LED0 Output Weak pull-down
PIO_11 STATUS_LED1 Output Weak pull-down
AIO AIO_0 - Output Driving low
AIO_1 - Output Driving low
Others RESETB RESETB Input Weak pull-up
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1.6 Dimensions and PCB land pattern
Figure 1-3 BCD110SU Dimensions Figure 1-4 BCD110DU Dimensions
Figure 1-5 BCD110SC Dimensions Figure 1-6 BCD110DC Dimensions
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Figure 1-7 BCD110DS Dimensions
[SMD Type] [DIP Type]
Figure 1-8 Recommended Land Pattern
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Figure 1-4 Recommended Board Layout
*BCD110SU, DU, DS has no keep-out area.
Model despription
Model name Interface Connector
Antenna
Type1 Type2 Type3
Parani-BCD110DU DIP, pin U.FL 5dBi dipole 3dBi dipole 1dBi stub
Parani-BCD110DS DIP, pin RPSMA 5dBi dipole 3dBi dipole 1dBi stub
Parani-BCD110DC DIP, pin CHIP 0dBi Chip
Parani-BCD110SU SMD, pad U.FL 5dBi dipole 3dBi dipole 1dBi stub
Parani-BCD110SC SMD, pad CHIP 0dBi Chip
PARANI-BCD110
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2. Electrical characteristics
2.1 Absolute maximum ratings
Ratings Min Max Unit
Storage Temperature -40 +85 °C
Operating Temperature -40 +85 °C
Supply voltage PVCC -0.4 3.6 V
+3V3 -0.4 3.6 V
Other terminal voltages GND – 0.4 +3V3 +0.4 V
Table 2-1 Absolute maximum ratings
2.2 Recommended operating conditions
Ratings Min Typ Max Unit
Operating Temperature -40 25 +85 °C
Supply voltage PVCC 2.7 3.3 3.6 V
+3V3 2.7 3.3 3.6 V
UART 3.0 3.3 3.6 V
USB 3.1 3.3 3.6 V
Supply current PVCC 100 150 200 mA
+3V3 40 50 100 mA
Table 2-2 Recommended operating conditions
* Total current consumption = operating mode: max 100mA, test mode: max. 200mA
2.3 Power Consumptions
Role Operation Mode UART Rate(kbps) Current Unit
- Inquiry and page Scan 115.2 76 mA
- Power on (Standby) 115.2 2 mA
Connectable Mode(Mode3) 115.2 18 mA
Connected (No data) 115.2- 15 mA
Connected (file transfer) 115.2 45 mA
Connected (file transfer) 9.6 55 mA
Table 2-3 Power consumptions (SPP)
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3. RF Characteristics
3.1 Basic Data Rate
3.1.1 Transmitter Performance
RF Characteristics
PVCC = 3.3V, 25°C
Min Typ Max Bluetooth
Specification
Unit
Output power 16 18 19 ≤ 20 dBm
Power Density 16 18 19 ≤ 20 dBm
Power Control 3 4 6 2 ≤ step ≤ 8 dB
TX Output Spectrum-Frequency range 2402 - 2480 2400 ~2483.5 MHz
TX Output Spectrum-20dB Bandwidth - 900 - ≤ 1000 kHz
Adjacent
Channel Power
F = F0 ± 2MHz - - -20 ≤ -20 dBm
F = F0 ± 3MHz - - -40 ≤ -40 dBm
F = F0 ± > 3MHz - - -40 ≤ -40 dBm
Modulation
Characteristics
∆f1avg 145 165 175 140 ≤ ∆f1avg ≤ 175 kHz
∆f2avg 115 155 - ∆f2avg ≥ 115 kHz
∆f2avg/∆f1avg 0.8 0.95 - (∆f1avg/∆f2avg) ≥ 0.8 -
Initial Carrier Frequency Tolerance -20 - 20 ≤ ±75 kHz
Carrier
Frequency Drift
Drift rate -20 - 20 ≤ ±20 kHz/50µs
1 slot Freq Drift -25 - 25 ≤ ±25 kHz
5 slot Freq Drift -40 - 40 ≤ ±40 kHz
Table 3-1 Transmitter performance at basic data rate
3.1.2 Transceiver
RF Characteristics
PVCC = 3.3V, 25°C
Min Typ Max Bluetooth
Specification
Unit
Out of band
Spurious
Emissions
0.030-1.000GHz -36 - - ≤ -36 dBm
1.000-12.75GHz -30 - - ≤ -30 dBm
1.800-5.100GHz -47 - - ≤ -47 dBm
5.100-5.300GHz -47 - - ≤ -47 dBm
Table 3-2 Transceiver at basic data rate
3.1.3 Receiver Performance
RF Characteristics
Temperature 25°C
Min Typ Max Bluetooth
Specification
Unit
Sensitivity - Single slot packets (0.1%) - -90 -70 ≤ -70 dBm
Sensitivity - Multi slot packets (0.1%) - -90 -70 ≤ -70 dBm
C/I performance
at 0.1% BER
co-channel - - -11 ≤ -11 dB
F = F0 + 1MHz - - 0 ≤ 0 kHz
F = F0 – 1MHz - - 0 ≤ 0 dB
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F = F0 + 2MHz - - -20 ≤ -20 dB
F = F0 – 2MHz - - -30 ≤ -30 dB
F = F0 – 3MHz - - -40 ≤ -40 dB
F = F0 + 5MHz - - -40 ≤ -40 dB
F = FImage - -9 ≤ -9 dB
Blocking
performance
0.030-2.000GHz -10 - - ≥ -10 dBm
2.000-2.400GHz -27 - - ≥ -27 dBm
2.500-3.000GHz -27 - - ≥ -27 dBm
3.000-12.75GHz -10 - - ≥ -10 dBm
Inter-modulation performance -39 - - ≥ -39 dBm
Maximum input level at 0.1% BER -20 0 - ≥ -20 dBm
Table 3-3 Receiver Performance at basic data rate
3.2 Enhanced Data Rate
3.2.1 Transmitter performance
RF Characteristics
PVCC = 3.3V, Temperature 25°C
Min Typ Max Bluetooth
Specification
Unit
Maximum RF Transmit Power -2 2 - -6 to +4 dB
Relative Transmit Power -4 - 1 -4 to +1 dB
Carrier
Frequency
Stability
π/4
DQPSK
| ω0 | -10 - 10 ≤ ±10 for all blocks kHz
| ωi | -75 - 75 ≤ ±75 for all packets kHz
| ω0 + ωi | -75 - 75
≤ ±75 for all blocks kHz
8DPSK | ω0 | -10 - 10 ≤ ±10 for all blocks kHz
| ωi | -75 - 75 ≤ ±75 for all packets kHz
| ω0 + ωi | -75 - 75
≤ ±75 for all blocks kHz
Modulation
Accuracy
π/4
DQPSK
RMS DEVM - - 20 ≤ 20 %
99% DEVM - - 30 ≤ 30 %
Peak DEVM - - 35 ≤ 35 %
8DPSK RMS DEVM - - 13 ≤ 13 %
99% DEVM - - 20 ≤ 20 %
Peak DEVM - - 25 ≤ 25 %
EDR Differential Phase Encoding 99 - - ≥ 99 %
In-band
Spurious
Emissions
(8DPSK)
F ≥ F0 + 3MHz - - -40 ≥ -40 dBm
F < F0 + 3MHz - - -40 ≥ -40 dBm
F = F0 – 3MHz - - -40 ≥ -40 dBm
F = F0 – 2MHz - - -20 ≥ -20 dBm
F = F0 – 1MHz - - -26 ≥ -26 dB
F = F0 + 1MHz - - -26 ≥ -26 dB
F = F0 + 2MHz - - -20 ≥ -20 dBm
F = F0 + 3MHz - - -40 ≥ -40 dBm
Table 3-4 Transmitter performance at enhanced data rate
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3.2.2 Receiver performance
RF Characteristics
Temperature 25°C
Min Typ Max Bluetooth
Specification
Unit
Sensitivity
at 0.01% BER
π/4 DQPSK - -88 -70 ≤ -70 dBm
8DPSK - -85 -70 ≤ -70 dBm
BER floor performance - - -60 ≤ -60 dBm
C/I Performance
(co-channel at 0.1% BER)
π/4 DQPSK - - 13 ≤ +13 dB
8DPSK - - 21 ≤ +21 dB
C/I
Performance
(Adjacent
Channel
Selectivity)
F = F0 + 1MHz π/4 DQPSK - - 0 ≤ 0 dB
8DPSK - - 5 ≤ +5 dB
F = F0 – 1MHz π/4 DQPSK - - 0 ≤ 0 dB
8DPSK - - 5 ≤ +5 dB
F = F0 + 2MHz π/4 DQPSK - - -30 ≤ -30 dB
8DPSK - - -25 ≤ -25 dB
F = F0 – 2MHz π/4 DQPSK - - -20 ≤ -20 dB
8DPSK - - -13 ≤ -13 dB
F ≥ F0 + 3MHz π/4 DQPSK - - -40 ≤ -40 dB
8DPSK - - -33 ≤ -33 dB
F ≤ F0 – 5MHz π/4 DQPSK - - -40 ≤ -40 dB
8DPSK - - -33 ≤ -33 dB
F = FImage π/4 DQPSK - - -7 ≤ -7 dB
8DPSK - - 0 ≤ 0 dB
Maximum input level
at 0.1% BER
π/4 DQPSK -20 - - ≥ -20 dBm
8DPSK -20 - - ≥ -20 dBm
Table 3-5 Receiver performance at enhanced data rate
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4. Device Terminal Descriptions
4.1 UART Interface
UART (Universal Asynchronous Receiver and Transmitter) interface provides a simple mechanism for
communicating with other serial device using the RS232 protocol. When BCD110 is connected to another
digital device, UART_RX and UART_TX transfer data between the two devices. The remaining two signals,
UART_CTS, UART_RTS, can be used to implement RS232 hardware flow control where both are active low
indicators. All UART connections are implemented using CMOS technology and have signaling levels of 0V
and 3.3V
Parameter Possible Values
Baud Rate Minimum 1200 baud (2%Error)
Maximum 3M baud (1%Error)
Flow Control RTS/CTS or None
Parity None, Odd or Even
Number of Stop Bits 1 or 2
Bits per Channel 8
Table 4-1 Possible UART Settings
4.2 USB Interface
BCD110 USB devices contain a full speed (12Mbits/s) USB interface that is capable of driving of a USB
cable directly. No external USB transceiver is required. The device operates as a USB peripheral,
responding to requests from a master host controller such as a PC. Both the OHCI and the UHCI standards
are supported. The set of USB endpoints implemented behave as specified in the USB section of the
Bluetooth specification v2.0+EDR or alternatively can appear as a set of endpoints appropriate to USB audio
devices such as speakers. As USB is a Master/Slave oriented system (in common with other USB
peripherals), BCD110 only supports USB slave operation.
The USB data lines emerge as pins USB_DP and USB_DN. These terminals are connected to the internal
USB I/O buffers of the BCD110, therefore, have low output impedance. To match the connection to the
characteristic of the USB cable, resistors must be placed in series with USB_DP/USB_DN and the cable.
BCD110 features an internal USB pull-up resistor. This pulls the USB_DP pin weakly high when BCD110 is
ready to enumerate. It signals to the PC that it is a full speed (12Mbit/s) USB device.
The USB internal pull-up is implemented as a current source, and is compliant with section 7.1.5 of the USB
specification v1.2. The internal pull-up pulls USB_DP high to at least 2.8V when loaded with a 15KΩ±5%
pull-down resistor (in the hub/host) when VDD_PADS=3.1V. This presents a Thevenin resistance to the host
of at least 900Ω.
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4.3 I2C Interface
PIO[8:6] can be used to form a mater I2C interface. The interface is formed using software to drive these
lines. Therefore, it is suited only to relatively slow functions such as driving a dot matrix LCD (Liquid Crystal
Display), keyboard scanner or EEPROM.
Notes:
PIO lines need to be pull-up through 2.2KΩ resistors.
PIO[7:6] dual functions, UART bypass and EEPROM support, therefore, devices using an
EEPROM cannot support UART bypass mode.
For connection to EEPROMs, refer to CSR documentation on I2C EEPROM for use with BlueCore.
This provides information on the type of devices currently supported.
4.4 PCM CODEC Interface
PCM (Pulse Code Modulation) is a standard method used to digitize audio (particularly voice) for
transmission over digital communication channels. Through its PCM interface, BCD110 has hardware
support for continual transmission and reception of PCM data, thus reducing processor overhead for wireless
headset applications. BCD110 offers a bi-directional digital audio interface that route directly into the
baseband layer of the on-chip firmware. It does not pass through the HCI protocol layer.
Hardware on BCD110 allows the data to be sent to and received from a SCO connection.
Up to three SCO connections can be supported by the PCM interface at any on time.
BCD110 can operate as PCM interface Master generating an output clock of 128, 256, or 512kHz. When
configured as PCM interface slave, it can operate with an input clock up to 2048kHz. BCD110 is compatible
with a variety of clock formats, including Long Frame Sync, Short Frame Sync and GCI timing environments.
BCD110 interfaces directly to PCM audio devices including the following:
Qualcomm MSM 3000 series and MSM 5000 series CDMA baseband devices
OKI MSM7705 four channel A-raw and u-law CODEC
Motorola MC145481 8-bit A-law and u-law CODEC
Motorola MC145483 13-bit linear CODEC
STW 5093 and 5094 14-bit linear CODECs
BCD110 is also compatible with the Motorola SSITM interface
4.5 I/O Parallel Ports
PIO lines can be configured through software to have either weak or strong pull-downs. All PIO lines are
configured as inputs with weak pull-downs at reset.
Any of the PIO lines can be configured as interrupt request lines or as wake-up lines from sleep modes.
PIO_6 or PIO_2 can be configured as a request line for an external clock source. This is useful when the
clock to BCD110 is provided from a system ASIC (Application Specific Integrated Circuit). Using
PSKEY_CLOCK_REQUEST_ENABLE (0x246), this terminal can be configured to be low when BCD110 is in
Deep Sleep and high when a clock is required. The clock must be supplied within 4ms of the rising edge of
PIO_6 or PIO_2 to avoid losing timing accuracy in certain Bluetooth operating modes.
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BCD110 has three general purpose analogue interface pins, AIO_0 and AIO_1. These are used to access
internal circuitry and control signals. One pin is allocated to decoupling for the on-chip band gap reference
voltage, the other two may be configured to provide additional functionality.
4.6 Reset Interface
BCD110 may be reset from several sources: RESETB pin, power on reset, a UART break character or via a
software configured watchdog timer.
The RESETB pin is an active low reset and is internally filtered using the internal low frequency clock
oscillator. A reset will be performed between 1.5 and 4.0ms following RESETB being active. It is
recommended that RESETB be applied for a period greater than 5ms.
The power on reset occurs when the VDD_CORE supply falls below typically 1.5V and is released
when VDD_CORE rises above typically 1.6V.
At reset the digital I/O pins are set to inputs for bi-directional pins and outputs are tri-state. The
PIOs have weak pull-downs.
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5. Application Schematic
Figure 5-1 BT Module Interface
Figure 5-2 Power Supply and Reset Interface
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Figure 5-3 RS232 Serial Interface
Figure 5-4 MICOM UART Interface
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Figure 5-5 USB Interface
Figure 5-6 I2C Interface
Figure 5-7 PCM Interface
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6. Software Stack
BCD110 is provided with Bluetooth v2.0 compatible firmware runs internally for SPP (Serial Port Profile)
applications by default. The firmware is designed to work out-of-box for real world SPP applications such as
POS (Point-of-sales), industrial automation, remote metering and other various applications.
The SPP firmware can be configured and controlled by typical AT commands. Users can easily configure
BCD110 by using a terminal program such as HyperTerminal and can use Bluetooth wireless communication
without modifying user’s existing serial communication program. In addition to the basic AT commands,
BCD110 provides some expanded AT commands for various functions. User friendly ParaniWizard and
ParaniWIN are also provided for easy setup on Microsoft Windows. To run AT commands on the BCD110,
the BCD110 should be connected to the serial port of the user’s own board or equivalent to carry the
BCD110.
The SPP firmware provided with the BCD110 is identical to the firmware of the Parani-ESD100V2 and
Parani-ESD110V2. To shorten the overall development cycle or for quick verification during or before own
development work, users might want to try ESD100V2/110V2 starter kits first for convenience. Also, please
refer to the ESD100V2/110V2 user’s manual for overall concept, configuration and complete AT commands
list of the SPP firmware. The ESD100V2/110V2 user’s manual can be downloaded from Sena support home
page at http://www.sena.com/support/downloads/.
Optionally, the BCD110 can be supplied with only software stack up to HCI level so users can develop and
embed their own firmware version into the BCD110 or entire Bluetooth stack runs on the host side for the
application such as USB dongle for computers. Regarding these custom firmware options, please contact a
Sena representative for more detail.
Figure 6-1 SPP Firmware Bluetooth software stack Figure 6-2 HCI firmware Bluetooth Software Stack
PCM
I/O
USB
UART
Radio
Baseband/Link Control
Link Manager
HCI
Host
UART
Radio
Baseband/Link Control
Link Manager
HCI
L2CAP
RFCOMM
SPP Firmware
Host
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7. Solder Profiles
The soldering profile depends on various parameters necessitating a set up for each application. The data
here is given only for guidance on solder re-flow. There are four zones:
Preheat Zone – This zone raises the temperature at a controlled rate, typically 1-2.5°C /s
Equilibrium Zone – This zone brings the board to a uniform temperature and also activates the flux.
The duration in this zone (typically 2-3 minutes) will need to be adjusted to optimize the out gassing
of the flux.
Reflow Zone – The peak temperature should be high enough to achieve good wetting but not so
high as to cause component discoloration or damage. Excessive soldering time can lead to
intermetallic growth which can result in a brittle joint.
Cooling Zone – The cooling rate should be fast, to keep the solder grains small which will give a
longer lasting joint. Typical rates will be 2-5°C/s
Figure 7-1 Typical Lead-Free Re-flow Solder Profile
Key features of the profile:
Initial Ramp = 1-2.5°C/sec to 175°C±25°C equilibrium
Equilibrium time = 60 to 180 seconds
Ramp to Maximum temperature (245°C) = 3°C/sec max.
Time above liquids temperature (217°C): 45~90 seconds
Device absolute maximum reflow temperature: 260°C
The BCD110 will withstand the specified profile up to two reflows to a maximum temperature of 260°C
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8. Packaging Information
Figure 8-1 Tape Information
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TBD
Figure 8-2 Reel Information
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9. Certificate Information
9.1 FCC
FCC Rule: Part 15 Subpart C Section 15.247
FCCID: S7AIW02
9.1.1 FCC Compliance Statement
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
Information to User
This equipment has been tested and found to comply with 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 generate, 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 on or more of the following
measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver-Connect the equipment into an outlet a
circuit different form that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
9.1.2 RF Exposure Statement
The equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment.
This device and its antenna must not be co-located or operation in conjunction with any other antenna or
transmitter.
9.1.3 Do not
Any changes or modifications to the equipment not expressly approved by the party responsible for
compliance could void user’s authority to operate the equipment.
To comply with FCC RF exposure compliance requirements, the antenna used for this transmitter must be
installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or
operate in conjunction with any other antenna or transmitter.”
As such, the radio component of this device is intended only for OEM integrators under the following two
conditions: The antenna must be installed such that 20 cm is maintained between the antenna and users.
The transmitter module may not be co-located with any other transmitter or antenna.
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 (e.g., digital device emissions, PC peripheral requirements).
In the event that these conditions cannot be met (for example, co-location with another transmitter), then
the FCC authorization is no longer considered valid and the FCC ID cannot be used on the final product. In
these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the
transmitter) and obtaining a separate FCC authorization.
End Product Labeling
The final end product must be labeled in a visible area with the following :
“Contains Transmitter Module FCC ID: S7AIW02”.
The radio component is an integral part of the Parani-BCD110DU and cannot be removed.
PARANI-BCD110
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9.2 CE
1177
Declare under our own responsibility that the product
Bluetooth Module
Brand name: SENA
Model No.: Parani-BCD110DU / Parani-BCD110DC / Parani-BCD110DS
Parani-BCD110SU / Parani-BCD110SC
To which this declaration refers conforms with the relevant standards or other standardizing documents
EN 60950-1
ETSI EN 301 489-1
ETSI EN 301 489-17
ETSI EN 300 328
According to the regulations in Directive 1999/5/EC
9.3 IC
“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.”
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de
licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de
brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le
brouillage est susceptible d'en compromettre le fonctionnement.
Radio Cert. No.: IC: 8154A-IW02
9.4 KC
Type Registration
Certification No: KCC-CRM-SNA-IW02
9.5 TELEC
Technical Regulations for Specified Radio Equipment Article 2, Section 1 (19)
Certification No:
9.6 SIG
QDID: B016862
Model Name: Parani-BCD110
Core Version: 2.0+EDR
Product Type: End Product
Declared Specifications: Baseband Conformance, Radio, Service Discovery Protocol,
Logical Link Control and Adaption Protocol, Generic Access Profile, Link Manager, RFCOMM,
Serial Port Profile, Host Controller Interface, Summary ICS, Product Type