BC213143A-ds-001Pf
Production Information
© Copyright CSR 2003
This material is subject to CSR’s non-disclosure agreement.
Device Features _äìÉ`çêÉ»OJolj
Single Chip Bluetooth® System
Production Information Data Sheet for
BC213143A
Fully qualified Bluetooth system
Low power 1.8V operation
Minimum external components
Integrated 1.8V regulator
UART Bypass mode
Available in VFBGA and CSP packages
Available in ‘RF Plug and Go’ package (see
separate data sheet)
June 2003
General Description Applications
_äìÉ`çêÉOJolj=is a single chip radio and
baseband chip for Bluetooth wireless technology
2.4GHz systems.
It is implemented in 0.18µm CMOS technology.
BlueCore2-ROM has the same pinout and
electrical characteristics as available in
BlueCore2-Flash to enable development of
custom code before committing to ROM.
The 4Mbit ROM is metal programmable, which
enables a six week turn-around from approval of
firmware to production samples.
Cellular Handsets
Personal Digital Assistants
Mice
Keyboards
High volume, cost sensitive production
BlueCore2-ROM has been designed to reduce the number
of external components required which ensures
production costs are minimised.
The device incorporates auto-calibration and built-in-self-
test (BIST) routines to simplify development, type approval
and production test. All hardware and device firmware is
fully compliant with the Bluetooth specification v1.1.
System Architecture
Contents
BC213143A-ds-001Pf
Production Information
© Copyright CSR 2003
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Page 2 of 50
_äìÉ`çêÉOÓolj=Product Data Sheet
Contents
1 Key Features .................................................................................................................................................. 5
2 6 x 6 VFBGA Package Information ............................................................................................................... 6
2.1 BC213143AXX-EK and BC213143AXX-RK Pinout Diagram ................................................................ 6
2.2 Device Terminal Functions ................................................................................................................... 7
3 4 x 4 CSP Package Information .................................................................................................................. 10
3.1 BC213143AXX-XB Pinout Diagram .................................................................................................... 10
3.2 Device Terminal Functions ................................................................................................................. 11
4 Electrical Characteristics ............................................................................................................................ 14
5 Radio Characteristics .................................................................................................................................. 19
5.1 Temperature +20°C ............................................................................................................................ 19
5.1.1 Transmitter ............................................................................................................................ 19
5.1.2 Receiver ................................................................................................................................ 20
5.1.3 Blocking................................................................................................................................. 21
5.2 Temperature -40°C ............................................................................................................................. 22
5.2.1 Transmitter ............................................................................................................................ 22
5.2.2 Receiver ................................................................................................................................ 22
5.3 Temperature -25°C ............................................................................................................................. 23
5.3.1 Transmitter ............................................................................................................................ 23
5.3.2 Receiver ................................................................................................................................ 23
5.4 Temperature +85°C ............................................................................................................................ 24
5.4.1 Transmitter ............................................................................................................................ 24
5.4.2 Receiver ................................................................................................................................ 24
5.5 Temperature +105°C .......................................................................................................................... 25
5.5.1 Transmitter ............................................................................................................................ 25
5.5.2 Receiver ................................................................................................................................ 25
5.6 Power Consumption ........................................................................................................................... 26
6 Device Diagrams .......................................................................................................................................... 27
7 Description of Functional Blocks ............................................................................................................... 28
7.1 RF Receiver........................................................................................................................................ 28
7.1.1 Low Noise Amplifier............................................................................................................... 28
7.1.2 Analogue to Digital Converter ............................................................................................... 28
7.2 RF Transmitter.................................................................................................................................... 28
7.2.1 IQ Modulator ......................................................................................................................... 28
7.2.2 Power Amplifier ..................................................................................................................... 28
7.2.3 Auxiliary DAC ........................................................................................................................ 28
7.3 RF Synthesiser ................................................................................................................................... 28
7.4 Clock Input and Generation ................................................................................................................ 28
7.5 Baseband and Logic ........................................................................................................................... 29
7.5.1 Memory Management Unit .................................................................................................... 29
7.5.2 Burst Mode Controller ...........................................................................................................29
7.5.3 Physical Layer Hardware Engine DSP .................................................................................. 29
7.5.4 RAM ...................................................................................................................................... 29
7.5.5 ROM...................................................................................................................................... 29
7.5.6 USB....................................................................................................................................... 29
7.5.7 Synchronous Serial Interface ................................................................................................ 29
7.5.8 UART .................................................................................................................................... 29
7.5.9 Audio PCM Interface .............................................................................................................29
7.6 Microcontroller .................................................................................................................................... 30
7.6.1 Programmable I/O................................................................................................................. 30
8 CSR Bluetooth Software Stacks ................................................................................................................. 31
8.1 Important Information.......................................................................................................................... 31
8.2 BlueCore HCI Stack............................................................................................................................ 31
8.2.1 Key Features of the HCI Stack.............................................................................................. 32
8.3 BlueCore RFCOMM Stack.................................................................................................................. 34
8.3.1 Key Features of the BlueCore2-ROM RFCOMM Stack......................................................... 34
Contents
BC213143A-ds-001Pf
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_äìÉ`çêÉOÓolj=Product Data Sheet
8.4 BlueCore Virtual Machine Stack ......................................................................................................... 35
8.5 BlueCore HID Stack............................................................................................................................ 36
8.6 Host Side Software ............................................................................................................................. 37
8.7 Additional Software for Other Embedded Applications ....................................................................... 37
8.8 CSR Development Systems ............................................................................................................... 37
9 Application Schematics............................................................................................................................... 38
9.1 6 x 6 VFBGA 84-Ball Package............................................................................................................ 38
9.1.1 Application Schematic using Separate Balun and Filter ........................................................ 38
9.1.2 Application Schematic using Epcos Combined Balun and Filter ........................................... 39
9.1.3 Application Schematic using Soshin Combined Balun and Filter .......................................... 40
9.2 4 x 4 CSP 49-Ball Package................................................................................................................. 41
10 Package Dimensions ................................................................................................................................... 42
10.1 6 x 6 VFBGA 84-Ball Package............................................................................................................ 42
10.2 4 x 4 CSP 47-Ball Package................................................................................................................. 43
11 Ordering Information ................................................................................................................................... 44
11.1 BlueCore2-ROM ................................................................................................................................. 44
12 Contact Information..................................................................................................................................... 45
13 Document References ................................................................................................................................. 46
Acronyms and Definitions.................................................................................................................................. 47
Status Information .............................................................................................................................................. 49
Record of Changes ............................................................................................................................................. 50
Contents
BC213143A-ds-001Pf
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_äìÉ`çêÉOÓolj=Product Data Sheet
List of Figures
Figure 6.1: BlueCore2-ROM Device Diagram for 6 x 6mm VFBGA and 4 x 4mm CSP Packages ....................... 27
Figure 8.1: BlueCore HCI Stack ............................................................................................................................ 31
Figure 8.2: BlueCore RFCOMM Stack .................................................................................................................. 34
Figure 8.3: Virtual Machine ................................................................................................................................... 35
Figure 8.4: HID Stack............................................................................................................................................ 36
Figure 9.1: Application Circuit using Separate Balun and Filter for 6 x 6 VFBGA Package .................................. 38
Figure 9.2: Application Circuit using Epcos Balun and Filter for 6 x 6 VFBGA Package ....................................... 39
Figure 9.3: Application Circuit using Soshin Balun and Filter for 6 x 6 VFBGA Package ...................................... 40
Figure 9.4: Application Circuit for 4 x 4 CSP Package .......................................................................................... 41
Figure 10.1: BlueCore2-ROM VFBGA Package Dimensions ................................................................................ 42
Figure 10.2: BlueCore2-ROM CSP Package Dimensions..................................................................................... 43
Key Features
BC213143A-ds-001Pf
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_äìÉ`çêÉOÓolj=Product Data Book
1 Key Features
Radio
Operation with common TX/RX terminals
simplifies external matching circuitry and
eliminates external antenna switch
Extensive built-in-self-test minimises
production test time
No external trimming is required in
production
Full RF reference designs are available
Transmitter
Up to +6dBm RF transmit power with level
control from the on-chip 6-bit DAC over a
dynamic range greater than 30dB
Supports Class 2 and Class 3 radios without
the need for an external power amplifier or
TX/RX switch
Supports Class 1 radios with an external
power amplifier, provided by a power control
terminal controlled by an internal 8-bit
voltage DAC and an external RF TX/RX
switch
Receiver
Integrated channel filters
Digital demodulator for improved sensitivity
and co-channel rejection
Digitised RSSI available in real time over the
HCI interface
Fast AGC for enhanced dynamic range
Synthesiser
Fully integrated synthesizer; no external
VCO varactor diode, resonator or loop filter
Compatible with crystals between 8 and
32MHz (in multiples of 250kHz) or an
external clock
Accepts 7.68, 14.4, 15.36, 16.2, 16.8, 19.2,
19.44, 19.68, 19.8 and 38.4MHz TCXO
frequencies for GSM and CDMA devices
with either sinusoidal or logic level signals
Auxiliary Features
Crystal oscillator with built-in digital trimming
Power management includes digital shut
down and wake up commands and an
integrated low power oscillator for ultra low
Park/Sniff/Hold mode power consumption
Device can be used with an external master
oscillator and provides a ‘clock request
signal’ to control external clock source
Auxiliary Features
On-chip linear regulator, producing 1.8V output
from 2.2 – 4.2V input
Power on reset cell detects low supply voltage
Arbitrary sequencing of power supplies is
permitted
Uncommitted 8-bit ADC and 8-bit DAC are
available to application programs
Baseband and Software
Internal programmed 4Mbit ROM for complete
system solution
32Kbyte on-chip RAM allows full speed
Bluetooth data transfer, mixed voice and data,
plus full seven Slave piconet operation
Dedicated logic for forward error correction,
header error control, access code correlation,
demodulation, cyclic redundancy check,
encryption bitstream generation, whitening and
transmit pulse shaping
Transcoders for A-law, µ-law and linear voice
from host and A-law, µ-law and CVSD voice
over air
Physical Interfaces
Synchronous serial interface up to 4M Baud for
system debugging
UART interface with programmable Baud rate
up to 1.5M Baud with an optional bypass mode
Full speed USB interface supports OHCI and
UHCI host interfaces. Compliant with USB v2.0
Synchronous bi-directional serial
programmable audio interface
Optional I2C™ compatible interface
Bluetooth Stack
CSR’s Bluetooth Protocol Stack runs on-chip in a
variety of configurations:
Standard HCI (UART or USB)
Fully embedded to RFCOMM
Customer specific builds with embedded
application code
Package Options
84-ball VFBGA 6 x 6 x 1.0mm 0.5mm pitch
49-ball CSP 4 x 4 x 0.7mm 0.5mm pitch
6 x 6 VFBGA Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=_ççâ
2 6 x 6 VFBGA Package Information
2.1 BC213143AXX-EK and BC213143AXX-RK Pinout Diagram
Orientation from top of device
A
B
C
D
E
F
G
H
J
K
123
4
5
6
7
8910
A1 A2 A3
A
4
A
5
A
6
A
7
A
8A9 A10
B1 B2 B3 B4 B5 B6 B7 B8 B9 B10
C1 C2 C3 C4 C5 C6 C7 C8 C9 C10
D1 D2 D3 D8 D9 D10
E1 E2 E3 E8 E9 E10
F1 F2 F3 F8 F9 F10
G1 G2 G3 G8 G9 G10
H1 H2 H3 H4 H5 H6 H7 H8 H9 H10
J1 J2 J3 J4 J5 J6 J7 J8 J9 J10
K1 K2 K3 K4 K5 K6 K7 K8 K9 K10
Figure 2.1: BlueCore2-ROM 6 x 6mm Packages (BC213143AXX-EK and BC213143AXX-RK)
6 x 6 VFBGA Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=_ççâ
2.2 Device Terminal Functions
Radio Ball Pad Type Description
RF_IN D1 Analogue Single ended receiver input
PIO[0]/RXEN B1
Bi-directional with programmable
strength internal pull-up/down
Control output for external LNA
(if fitted)
PIO[1]/TXEN B2
Bi-directional with programmable
strength internal pull-up/down
Control output for external PA
(if fitted for Class 1)
TX_A F1 Analogue Transmitter output/switched receiver
input
TX_B E1 Analogue Complement of TX_A
AUX_DAC D3 Analogue Voltage DAC output
Synthesiser and
Oscillator Ball Pad Type Description
XTAL_IN K3 Analogue For crystal or external clock input
XTAL_OUT J3 Analogue Drive for crystal
LOOP_FILTER H2 Analogue Connection to external PLL loop filter
(Do not connect)
PCM Interface Ball Pad Type Description
PCM_OUT G8
CMOS output, tristatable with weak
internal pull-down Synchronous data output
PCM_IN G9
CMOS input, with weak internal
pull-down Synchronous data input
PCM_SYNC G10
Bi-directional with weak internal
pull-down Synchronous data sync
PCM_CLK H10
Bi-directional with weak internal
pull-down Synchronous data clock
USB and UART Ball Pad Type Description
UART_TX J10
CMOS output, tristatable with weak
internal pull-up UART data output active low
UART_RX H9
CMOS input with weak internal
pull-down
UART data input active low (idle
status high)
UART_RTS H7
CMOS output, tristatable with weak
internal pull-up UART request to send active low
UART_CTS H8
CMOS input with weak internal
pull-down UART clear to send active low
USB_DP J8 Bi-directional USB data plus with selectable internal
1.5kΩ pull-up resistor
USB_DN K8 Bi-directional USB data minus
6 x 6 VFBGA Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=_ççâ
Test and Debug Ball Pad Type Description
RESET C7
CMOS input with weak internal
pull-down
Reset if high. Input debounced so
must be high for >5ms to cause a
reset
RESET_B D8
CMOS input with weak internal
pull-up
Reset if low. Input debounced so
must be low for >5ms to cause a reset
SPI_CSB C9
CMOS input with weak internal
pull-up
Chip select for Serial Peripheral
Interface, active low
SPI_CLK C10
CMOS input with weak internal
pull-down Serial Peripheral Interface clock
SPI_MOSI C8
CMOS input with weak internal
pull-down Serial Peripheral Interface data input
SPI_MISO B9
CMOS output, tristatable with weak
internal pull-down Serial Peripheral Interface data output
TEST_EN C6
CMOS input with strong internal
pull-down
For test purposes only (leave
unconnected)
FLASH_EN B8 No pad Pull high to VDD_MEM
for compatibility with flash parts
PIO Port Ball Pad Type Description
PIO[2] B3
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[3] B4
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[4] E8
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[5] F8
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[6] F10
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[7] F9
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[8] C5
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[9] C3
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[10] C4
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
PIO[11] E3
Bi-directional with programmable
strength internal pull-up/down Programmable input/output line
AIO[0] H4 Bi-directional Programmable input/output line
AIO[1] H5 Bi-directional Programmable input/output line
AIO[2] J5 Bi-directional Programmable input/output line
6 x 6 VFBGA Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=_ççâ
Power Supplies and
Control Ball Pad Type Description
VREG_IN K6 Regulator input Linear regulator voltage input
VDD_USB K9 VDD Positive supply for UART/USB ports
VDD_PIO A3 VDD Positive supply for PIO and AUX
DAC(1)
VDD_PADS D10 VDD Positive supply for all other digital
input/output ports(2)
VDD_MEM
A6,A7,
A9, H6,
J6, K7
VDD Positive supply AIO ports (and flash
memory on flash parts)
VDD_CORE E10 VDD Positive supply for internal digital
circuitry and internal ROM
VDD_RADIO C1, C2 VDD Positive supply for RF circuitry
VDD_VCO H1 VDD Positive supply for VCO and
synthesiser circuitry
VDD_ANA K4 VDD/Regulator output Positive supply for analogue circuitry
and 1.8V regulated output
VSS_PADS
A1, A2,
D9, J9,
K10
VSS Ground connection for input/output
VSS_MEM
A10,
B5, B7,
B10, J7
VSS Ground connections AIO ports (and
flash memory on flash parts)
VSS_CORE E9 VSS Ground connection for internal digital
circuitry and internal ROM
VSS_RADIO D2, E2,
F2 VSS Ground connections for RF circuitry
VSS_VCO G1, G2 VSS Ground connections for VCO and
synthesiser
VSS_ANA J2, J4,
K2 VSS Ground connections for analogue
circuitry
VSS F3 VSS Ground connection for internal
package shield
Unconnected Terminals Ball Description
A4, A5, A8, B6, G3, H3, J1, K1, K5 Leave unconnected
Notes:
(1) Positive supply for PIO[3:0] and PIO[11:8]
(2) Positive supply for SPI/PCM ports and PIO[7:4]
See Section 4, Electrical Characteristics, for voltage specifications
4 x 4 CSP Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=pÜÉÉí
3 4 x 4 CSP Package Information
3.1 BC213143AXX-XB Pinout Diagram
Orientation from top of device
Figure 3.1: BlueCore2-ROM 4 x 4mm CSP Package (BC213143AXX-XB)
Note:
Performance and characterisation data reported is not guaranteed for the CSP package option. All data
should be regarded as Pre-Production Information with respect to the CSP package.
4 x 4 CSP Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=pÜÉÉí
3.2 Device Terminal Functions
Radio Ball Pad Type Description
PIO[0]/RXEN G3
Bi-directional with
programmable strength
internal pull-up/down
Control output for external LNA (if fitted)
(=PIO[0])
PIO[1]/TXEN E3
Bi-directional with
programmable strength
internal pull-up/down
Control output for external PA Class 1 only
(=PIO[1])
TX_A G2 Analogue Transmitter output/Switched Receiver input
TX_B G1 Analogue Complement of TX_A
AUX_DAC F2 Analogue Voltage DAC output
Synthesiser and
Oscillator Ball Pad Type Description
XTAL_IN A1 Analogue For crystal or external clock input
XTAL_OUT A2 Analogue Drive for crystal
PCM Interface Ball Pad Type Description
PCM_OUT C7
CMOS output, tristatable
with weak internal pull-down Synchronous data output
PCM_IN C5
CMOS input, with weak
internal pull-down Synchronous data input
PCM_SYNC C6
Bi-directional with weak
internal pull-down Synchronous data sync
PCM_CLK D5
Bi-directional with weak
internal pull-down Synchronous data clock
USB and UART Ball Pad Type Description
UART_TX B7
CMOS output, tristatable
with weak internal pull-up UART data output active low
UART_RX B6
CMOS input with weak
internal pull-down UART data input active low (idle status high)
UART_RTS B5
CMOS output, tristatable
with weak internal pull-up UART request to send active low
UART_CTS C4
CMOS input with weak
internal pull-down UART clear to send active low
USB_DP A5 Bi-directional USB data plus with selectable internal
1.5kΩ pull-up resistor
USB_DN A6 Bi-directional USB data minus
4 x 4 CSP Package Information
BC213143A-ds-001Pf
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=pÜÉÉí
Test and Debug Ball Pad Type Description
RESETB E4
CMOS input with weak
internal pull-up
Reset if low. Input debounced so must be
low for >5ms to cause a reset
SPI_CSB G6
CMOS input with weak
internal pull-up
Chip select for Synchronous Serial Interface
active low
SPI_CLK F5
CMOS input with weak
internal pull-down Serial Peripheral Interface clock
SPI_MOSI F7
CMOS input with weak
internal pull-down Serial Peripheral Interface data input
SPI_MISO G7
CMOS output, tristatable
with weak internal pull-
down
Serial Peripheral Interface data output
TEST_EN D2
CMOS input with strong
internal pull-down For test purposes only (leave unconnected)
PIO Port Ball Pad Type Description
PIO[2] D3
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
PIO[3] F4
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
PIO[4] E5
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
PIO[5] D7
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
PIO[6] D6
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
PIO[7] D4
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
PIO[8] F3
Bi-directional with
programmable strength
internal pull-up/down
Programmable input/output line
AIO[0] B3 Bi-directional Programmable input/output line
AIO[1] C2 Bi-directional Programmable input/output line
AIO[2] C3 Bi-directional Programmable input/output line
4 x 4 CSP Package Information
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=pÜÉÉí
Power Supplies
and Control Ball Pad Type Description
VREG_IN A4 Regulator input Linear regulator voltage input
VDD_USB B4 VDD Positive supply for UART/USB and AIO ports
VDD_PIO G5 VDD Positive supply for PIO and AUX DAC(1)
VDD_PADS F6 VDD Positive supply for all other digital
input/output ports (2)
VDD_CORE E6 VDD Positive supply for internal digital circuitry
VDD_RADIO D1 VDD Positive supply for RF circuitry
VDD_VCO B1 VDD/ Regulator input Positive supply for VCO and synthesiser
circuitry
VDD_ANA A3 VDD Positive supply for analogue circuitry and
1.8V regulated output
VSS_PADS A7, E7,
G4 VSS Ground connection for internal digital
circuitry and input/output
VSS_RADIO E1 VSS Ground connections for RF circuitry
VSS_VCO C1 VSS Ground connections for VCO and
synthesiser
VSS_ANA B2 VSS Ground connections for analogue circuitry
Notes:
(1) Positive supply for PIO[3:0] and PIO[8].
(2) Positive supply for SPI/PCM ports and PIO[7:4].
Electrical Characteristics
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=pÜÉÉí
4 Electrical Characteristics
Absolute Maximum Ratings
Rating Min Max
Storage Temperature -40°C 150°C
Supply Voltage: VDD_RADIO, VDD_VCO, VDD_ANA,
VDD_CORE and VDD_MEM -0.4V 2.2V
Supply Voltage: VDD_PADS, VDD_PIO, VDD_USB -0.4V 3.7V
Supply Voltage: VREG_IN -0.4V 4.2V
Other Terminal Voltages VSS-0.4V VDD+0.4V
Recommended Operating Conditions
Operating Condition Min Max
Guaranteed RF performance range -40°C 105°C
Supply Voltage: VDD_RADIO, VDD_VCO, VDD_ANA,
VDD_CORE and VDD_MEM 1.7V 1.9V
Supply Voltage: VDD_PADS, VDD_PIO, VDD_USB 1.7V 3.6V
Supply Voltage: VREG_IN(1) 2.2V 3.6V(2)
Note:
(1) If the internal linear regulator is not required VREG_IN should be connected to 1.8V.
(2) The device will operate with VREG_IN as high as 4.2V, however performance is not guaranteed above
3.6V.
Electrical Characteristics
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_äìÉ`çêÉOJolj=mêçÇìÅí=a~í~=pÜÉÉí
Input/Output Terminal Characteristics(1)
Linear Regulator Min Typ Max Unit
Normal Operation
Output Voltage (Iload = 70mA / VREG_IN = 3.0V) 1.70 1.78 1.85 V
Temperature Coefficient -250 - 250 ppm/C
Output Noise(2)(3) - - 1 mV rms
Load Regulation (Iload < 100mA)(8) - - 50 mV/A
Settling Time(2)(4) - - 50
µs
Line Regulation(2)(5) -20 - - dB
Maximum Output Current 100 - - mA
Minimum Load Current 5 - - µA
Dropout Voltage (Iload = 70mA) - - 350 mV
Quiescent Current (excluding Ioad, Iload <1mA) 25 35 50 µA
Low Power Mode(6)
Quiescent Current (excluding Ioad, Iload <100µA) 4 7 10
µA
Disabled Mode(7)
Quiescent Current 1.5 2.5 3.5
µA
Notes:
(1) These parameters are guaranteed for 2.2 to 3.6V. Between 3.6V and 4.2V the output voltage is not
guaranteed to remain below 1.85V, but full functionality of the chip will be preserved and no damage will
ensue.
(2) Regulator output connected to 47nF pure and 4.7µF 2.2Ω ESR capacitors
(3) Frequency range 100Hz to 100kHz
(4) 1mA to 70mA pulsed load
(5) Frequency range 100Hz to 10MHz
(6) Low power mode is entered and exited automatically when the chip enters/leaves Deep Sleep mode
(7) Regulator is disabled when VREG_IN is either open circuit or driven to the same voltage as VDD_ANA
(8) On-chip voltage: This figure does not include bondwire or ball-to-PCB resistance effects.
Electrical Characteristics
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Input/Output Terminal Characteristics (Continued)
Digital Terminals Min Typ Max Unit
Input Voltage Levels
VIL input logic level low 2.7 ≤VDD ≤3.6 -0.4 - 0.8 V
1.7 ≤VDD ≤1.9 -0.4 - 0.4 V
VIH input logic level high 0.7VDD - VDD+0.4 V
Output Voltage Levels
VOL output logic level low,
(lO = 4.0mA) 2.7 ≤VDD ≤3.6 - - 0.2 V
VOL output logic level low,
(lO = 4.0mA) 1.7 ≤VDD ≤1.9 - - 0.4 V
VOH output logic level high,
(lO = -4.0mA) 2.7 ≤VDD ≤3.6 VDD-0.2 - - V
VOH output logic level high,
(lO = -4.0mA) 1.7 ≤VDD ≤1.9 VDD-0.4 - - V
Input and Tristate Current with:
Strong pull-up -100 -40 -10 µA
Strong pull-down 10 40 100 µA
Weak pull-up -5 -1 0 µA
Weak pull-down 0 1 5 µA
I/O pad leakage current -1 0 1 µA
CI Input Capacitance 1.0 - 5.0 pF
USB Terminals(1) Min Typ Max Unit
Input Threshold
VIL input logic level low - - 0.3
VDD_USB V
VIH input logic level high 0.57
VDD_USB - - V
Input Leakage Current
VSS_USB <VIN< VDD_USB(2) -1 1 5
µA
CI Input capacitance 2.5 - 10.0 pF
Output Voltage Levels To Correctly Terminated USB Cable
VOL output logic level low 0.0 - 0.2 V
VOH output logic level high 2.8 - VDD_USB V
Electrical Characteristics
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Input/Output Terminal Characteristics (Continued)
Auxiliary DAC, 8-Bit Resolution Min Typ Max Unit
Resolution - - 8 Bits
Average output step size(3) 12.5 14.5 17.0 mV
Output Voltage Monotonic(3)
Voltage range (IO=0mA) VSS_PIO - VDD_PIO V
Current range -10.0 - +0.1 mA
Minimum output voltage (IO=100µA) 0.0 - 0.2 V
Maximum output voltage (IO=10mA) VDD_PIO-0.3 - VDD_PIO V
High Impedance leakage current -1 - 1 µA
Offset -220 - 120 mV
Integral non linearity(3) -2 - 2 LSB
Starting time (50pF load) - - 10 µs
Settling time (50pF load) - - 5 µs
Crystal Oscillator Min Typ Max Unit
Crystal frequency(4) (7) 8.0 - 32.0 MHz
Digital trim range(5) 5.0 6.2 8.0 pF
Trim step size - 0.1 - pF
Transconductance 2.0 - - mS
Negative resistance(6) 870 1500 2400
Ω
External Clock
Input frequency(7) 7.5 - 40.0 MHz
Clock input level(8) 0.4 - VDD_ANA V pk-pk
Phase noise (at zero crossing) - - 15 ps rms
XTAL_IN input impedance 10 - - kΩ
XTAL_IN input capacitance - 7 10 pF
Power-on Reset
VDD_CORE falling threshold 1.40 1.50 1.60 V
VDD_CORE rising threshold 1.50 1.60 1.70 V
Hysteresis 0.05 0.10 0.15 V
Electrical Characteristics
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Notes:
VDD_CORE, VDD_RADIO, VDD_VCO, VDD_ANA and VDD_MEM are at 1.8V unless shown otherwise.
VDD_PADS, VDD_PIO and VDD_USB are at 3.0V unless shown otherwise
The same setting of the digital trim is applied to both XTAL_IN and XTAL_OUT.
Current drawn into a pin is defined as positive, current supplied out of a pin is defined as negative.
(1) 3.1V ≤VDD_USB ≤3.6V
(2) Internal USB pull-up disabled
(3) Specified for an output voltage between 0.2V and VDD_PIO -0.3V
(4) Integer multiple of 250kHz
(5) The difference between the internal capacitance at minimum and maximum settings of the internal
digital trim
(6) XTAL frequency = 16MHz (Please refer to your software build release note for frequencies supported);
XTAL C0 = 0.75pF; XTAL load capacitance = 8.5pF
(7) Clock input can be any frequency between 8 and 40MHz in steps of 250kHz + CDMA/3G TCXO
frequencies of 7.68, 14.4, 15.36, 16.2, 16.8, 19.2, 19.44, 19.68, 19.8 and 38.4MHz
(8) Clock input can either be sinusoidal or square wave. If the peaks of the signal are below VSS_ANA or
above VDD_ANA a DC blocking capacitor is required between the signal and XTAL_IN
Radio Characteristics
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5 Radio Characteristics
BlueCore2-ROM meets the Bluetooth specification v1.1 when used in a suitable application circuit between -40°C
and +105°C.
5.1 Temperature +20°C
5.1.1 Transmitter
Radio Characteristics VDD = 1.8V Temperature = +20°C
Min Typ Max
Bluetooth
Specification Unit
Maximum RF transmit power(1) 3 6.5 - -6 to +4(2) dBm
RF power control range 25 35 - ≥16 dB
RF power range control resolution - 0.5 - - dB
20dB bandwidth for modulated carrier - 820 1000 ≤1000 kHz
Adjacent channel transmit power F=F0 ±2MHz(3) (4) - -35 -20 ≤-20 dBm
Adjacent channel transmit power F=F0 ±3MHz(3) (4) - -45 -40 ≤-40 dBm
∆f1avg “Maximum Modulation” 140 165 175
140<∆f1avg<175 kHz
∆f2max “Minimum Modulation” 115 140 - 115 kHz
∆f2avg / ∆f2avg 0.8 0.9 - ≥0.80 -
Initial carrier frequency tolerance - 10 35 ±75 kHz
Drift Rate - 8 20 ≤25 kHz/50µs
Drift (single slot packet) - 9 20 ≤25 kHz
Drift (five slot packet) - 10 25 ≤40 kHz
Notes:
(1) BlueCore2-ROM firmware maintains the transmit power to be within the Bluetooth specification v1.1
limits
(2) Class 2 RF transmit power range, Bluetooth specification v1.1
(3) Measured at F0 = 2441MHz
(4) Up to three exceptions are allowed in v1.1 of the Bluetooth specification
(5) Performance and characterisation data reported is not guaranteed for the CSP package option. All data
should be regarded as Pre-Production Information with respect to the CSP package.
(5)
Radio Characteristics
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5.1.2 Receiver
Radio Characteristics VDD = 1.8V Temperature = +20°C
Frequency
(GHz) Min Typ Max Bluetooth
Specification Unit
2.402 - -84 -80
2.441 - -85 -81
Sensitivity at 0.1% BER
2.480 - -85 -81
≤-70 dBm
Maximum received signal at 0.1% BER 0 3 - ≥-20
C/I co-channel - 9 11 ≤11 dB
Adjacent channel selectivity C/I F=F0 +1MHz(1) (2) - -4 0 ≤0 dB
Adjacent channel selectivity C/I F=F0 −1MHz(1) (2) - -4 0 ≤0 dB
Adjacent channel selectivity C/I F=F0 +2MHz(1) (2) - -35 -30 ≤-30 dB
Adjacent channel selectivity C/I F=F0 −2MHz(1) (2) - -21 -20 ≤-20 dB
Adjacent channel selectivity C/I F≥F0 +3MHz(1) (2) - -45 - ≤-40 dB
Adjacent channel selectivity C/I F≤F0 −5MHz(1) (2) - -45 - ≤-40 dB
Adjacent channel selectivity C/I F=FImage(1) (2) - -18 -9
≤-9 dB
Notes:
(1) Up to five exceptions are allowed in v1.1 of the Bluetooth specification
(2) Measured at F0 = 2441MHz
Radio Characteristics
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5.1.3 Blocking
Radio Characteristics VDD = 1.8V Temperature = +20°C
Frequency
(GHz) Min Typ Max Bluetooth
Specification Unit
0.925 – 0.960(1) - -143 -138
1.570 – 1.580(2) - -138 -135
1.805 – 1.880(1) - -131 -115
1.930 – 1.990(3) - -135 -125
1.930 – 1.990(1) - -135 -126
1.930 – 1.990(4) - -137 -130
2.110 – 2.170(4) - -132 -122
Emitted power in cellular bands
measured at chip terminals
Output power ≤4dBm
2.110 – 2.170(5) - -135 -127
- dBmHz
Frequency
(GHz) Min Typ Max Modulation Unit
0.880 – 0.915 5 7 - GSM
1.710 – 1.785 3 6 - GSM
1.850 – 1.910 1 5 - GSM
Continuous power in cellular
bands required to block
Bluetooth reception(6)
Measured at chip terminals 1.920 – 1.980 -8 -6 - W-CDMA
dBm
Notes:
(1) Integrated in 200kHz bandwidth
(2) Integrated in 1MHz bandwidth
(3) Integrated in 30kHz bandwidth
(4) Integrated in 1.2MHz bandwidth
(5) Integrated in 5MHz bandwidth
(6) For Bluetooth sensitivity of -67dBm with 0.1% BER
Radio Characteristics
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5.2 Temperature -40°C
5.2.1 Transmitter
Radio Characteristics VDD = 1.8V Temperature = -40°C
Min Typ Max
Bluetooth
Specification Unit
Maximum RF transmit power(1) 4 8 - -6 to +4(2) dBm
RF power control range 25 35 - ≥16 dB
RF power range control resolution - 0.5 - - dB
20dB bandwidth for modulated carrier - 820 1000 ≤1000 kHz
Adjacent channel transmit power F=F0 ±2MHz(3) (4) - -35 -20 ≤-20 dBm
Adjacent channel transmit power F=F0 ±3MHz(3) (4) - -45 -40 ≤-40 dBm
∆f1avg “Maximum Modulation” 140 165 175
140<∆f1avg<175 kHz
∆f2max “Minimum Modulation” 115 135 - 115 kHz
∆f2avg / ∆f2avg 0.8 0.9 - ≥0.80 -
Initial carrier frequency tolerance - 10 35 ±75 kHz
Drift Rate - 8 25 ≤25 kHz/50µs
Drift (single slot packet) - 9 25 ≤25 kHz
Drift (five slot packet) - 10 40 ≤40 kHz
Notes:
(1) BlueCore2-ROM firmware maintains the transmit power to be within the Bluetooth specification v1.1
limits
(2) Class 2 RF transmit power range, Bluetooth specification v1.1
(3) Measured at F0 = 2441MHz
(4) Up to three exceptions are allowed in v1.1 of the Bluetooth specification
5.2.2 Receiver
Radio Characteristics VDD = 1.8V Temperature = -40°C
Frequency
(GHz) Min Typ Max Bluetooth
Specification Unit
2.402 - -86.0 -81
2.441 - -88.0 -82
Sensitivity at 0.1% BER
2.480 - -86.5 -82
≤-70 dBm
Maximum received signal at 0.1% BER -2 1 - ≥-20 dBm
Radio Characteristics
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5.3 Temperature -25°C
5.3.1 Transmitter
Radio Characteristics VDD = 1.8V Temperature = -25°C
Min Typ Max
Bluetooth
Specification Unit
Maximum RF transmit power(1) 3.5 7 - -6 to +4(2) dBm
RF power control range 25 35 - ≥16 dB
RF power range control resolution - 0.5 - - dB
20dB bandwidth for modulated carrier - 820 1000 ≤1000 kHz
Adjacent channel transmit power F=F0 ±2MHz(3) (4) - -35 -20 ≤-20 dBm
Adjacent channel transmit power F=F0 ±3MHz(3) (4) - -45 -40 ≤-40 dBm
∆f1avg “Maximum Modulation” 140 165 175
140<∆f1avg<175 kHz
∆f2max “Minimum Modulation” 115 140 - 115 kHz
∆f2avg / ∆f2avg 0.8 0.9 - ≥0.80 -
Initial carrier frequency tolerance - 10 35 ±75 kHz
Drift Rate - 8 20 ≤25 kHz/50µs
Drift (single slot packet) - 9 20 ≤25 kHz
Drift (five slot packet) - 10 25 ≤40 kHz
Notes:
(1) BlueCore2-ROM firmware maintains the transmit power to be within the Bluetooth specification v1.1
limits
(2) Class 2 RF transmit power range, Bluetooth specification v1.1
(3) Measured at F0 = 2441MHz
(4) Up to three exceptions are allowed in v1.1 of the Bluetooth specification
5.3.2 Receiver
Radio Characteristics VDD = 1.8V Temperature = -25°C
Frequency
(GHz) Min Typ Max Bluetooth
Specification Unit
2.402 - -85.5 -81
2.441 - -86.5 -82
Sensitivity at 0.1% BER
2.480 - -86.5 -82
≤-70 dBm
Maximum received signal at 0.1% BER -2 1 - ≥-20 dBm
Radio Characteristics
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5.4 Temperature +85°C
5.4.1 Transmitter
Radio Characteristics VDD = 1.8V Temperature = +85°C
Min Typ Max
Bluetooth
Specification Unit
Maximum RF transmit power(1) 0 3 - -6 to +4(2) dBm
RF power control range 25 35 - ≥16 dB
RF power range control resolution - 0.5 - - dB
20dB bandwidth for modulated carrier - 820 1000 ≤1000 kHz
Adjacent channel transmit power F=F0 ±2MHz(3) (4) - -35 -20 ≤-20 dBm
Adjacent channel transmit power F=F0 ±3MHz(3) (4) - -45 -40 ≤-40 dBm
∆f1avg “Maximum Modulation” 140 165 175
140<∆f1avg<175 kHz
∆f2max “Minimum Modulation” 115 140 - 115 kHz
∆f2avg / ∆f2avg 0.8 0.9 - ≥0.80 -
Initial carrier frequency tolerance - 10 35 ±75 kHz
Drift Rate - 9 20 ≤25 kHz/50µs
Drift (single slot packet) - 9 20 ≤25 kHz
Drift (five slot packet) - 10 28 ≤40 kHz
Notes:
(1) BlueCore2-ROM firmware maintains the transmit power to be within the Bluetooth specification v1.1
limits
(2) Class 2 RF transmit power range, Bluetooth specification v1.1
(3) Measured at F0 = 2441MHz
(4) Up to three exceptions are allowed in v1.1 of the Bluetooth specification
5.4.2 Receiver
Radio Characteristics VDD = 1.8V Temperature = +85°C
Frequency
(GHz) Min Typ Max Bluetooth
Specification Unit
2.402 - -81 -77
2.441 - -83 -79
Sensitivity at 0.1% BER
2.480 - -83 -79
≤-70 dBm
Maximum received signal at 0.1% BER 0 5 - ≥-20 dBm
Radio Characteristics
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5.5 Temperature +105°C
5.5.1 Transmitter
Radio Characteristics VDD = 1.8V Temperature = +105°C
Min Typ Max
Bluetooth
Specification Unit
Maximum RF transmit power(1) -2.5 1 - -6 to +4(2) dBm
RF power control range 25 35 - ≥16 dB
RF power range control resolution - 0.5 - - dB
20dB bandwidth for modulated carrier - 820 1000 ≤1000 kHz
Adjacent channel transmit power F=F0 ±2MHz(3) (4) - -35 -20 ≤-20 dBm
Adjacent channel transmit power F=F0 ±3MHz(3) (4) - -45 -40 ≤-40 dBm
∆f1avg “Maximum Modulation” 140 165 175
140<∆f1avg<175 kHz
∆f2max “Minimum Modulation” - 135 - 115 kHz
∆f2avg / ∆f2avg - 0.9 - ≥0.80 -
Initial carrier frequency tolerance - 10 35 ±75 kHz
Drift Rate - 9 25 ≤25 kHz/50µs
Drift (single slot packet) - 9 25 ≤25 kHz
Drift (five slot packet) - 10 40 ≤40 kHz
Notes:
(1) BlueCore2-ROM firmware maintains the transmit power to be within the Bluetooth specification v1.1
limits
(2) Class 2 RF transmit power range, Bluetooth specification v1.1
(3) Measured at F0 = 2441MHz
(4) Up to three exceptions are allowed in v1.1 of the Bluetooth specification
5.5.2 Receiver
Radio Characteristics VDD = 1.8V Temperature = +105°C
Frequency
(GHz) Min Typ Max Bluetooth
Specification Unit
2.402 - -81 -77
2.441 - -82 -78
Sensitivity at 0.1% BER
2.480 - -82 -78
≤-70 dBm
Maximum received signal at 0.1% BER 0 5 - ≥-20 dBm
Radio Characteristics
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5.6 Power Consumption
Mode Average Unit
SCO connection HV3 (30ms interval Sniff Mode) (Slave) 26.0 mA
SCO connection HV3 (30ms interval Sniff Mode) (Master) 26.0 mA
SCO connection HV3 (No Sniff Mode) (Slave) 32.0 mA
SCO connection HV1 (Slave) 43.0 mA
SCO connection HV1 (Master) 43.0 mA
ACL data transfer 115.2kbps UART no traffic (Master) 7.0 mA
ACL data transfer 115.2kbps UART no traffic (Slave) 24.0 mA
ACL data transfer 720kbps UART (Master or Slave) 50.0 mA
ACL data transfer 720kbps USB (Master or Slave) 50.0 mA
ACL connection, Sniff Mode 40ms interval, 38.4kbps UART 4.0 mA
ACL connection, Sniff Mode 1.28s interval, 38.4kbps UART 0.5 mA
Parked Slave, 1.28s beacon interval, 38.4kbps UART 0.6 mA
Standby Mode (Connected to host, no RF activity) 85.0 µA
Reset (RESET high or RESETB low) 50.0 µA
Device Diagrams
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6 Device Diagrams
Microcontroller
Interrupt
controller
Event
timer
RISC
micro-controller
Programmable
I/O
PIO[5]
PIO[6]
PIO[7]
PIO[2]
PIO[3]
PIO[4]
VSS_MEM
VSS_PADS
VSS_CORE
Baseband and Logic
UART_TX
UART_RX
UART_RTS
UART_CTS
SPI_CSB
SPI_CLK
SPI_MOSI
SPI_MISO
USB_DP
USB_DN
Synchronous
Serial
Interface
USB
UART
Memory
management
unit
Burst
mode
controller
RAM
Memory
mapped
control
status
Physical
layer
DSP
hardware
engine
VDD_ANA
XTAL_OUT
XTAL_IN
VDD_VCO
Clock
generation
VDD_RADIO
RSSI
PIO[0] / RXEN
RF_IN
TX_A
TX_B
PIO[1] / TXEN
PA
LNA
IQ DEMOD
RF
synthesiser
/N/N+1
Tune
LOOP_FILTER
ADC
Demodulator
VSS_ANA
VSS_RADIO
+45
-45
RF Receiver
RF Transmitter
IQ MOD
AUX_DAC
RF Synthesiser
Fref
ROM
PCM_OUT
PCM_IN
PCM_SYNC
Audio
PCM
Interface
VDD_PADS
VDD_MEM
VDD_CORE
AUX
DAC
VSS_VCO
AIO[0]
AIO[1]
AIO[2]
PCM_CLK
DAC
TEST_EN
PIO[8]
PIO[9]
PIO[10]
PIO[11]
VDD_PIO
VREG
VREG_IN
VDD_USB
VSS
RESETB
RESET
FLASH_EN
Loop Filter
Note:
Signals only available on 6x6 package
Figure 6.1: BlueCore2-ROM Device Diagram for 6 x 6mm VFBGA and 4 x 4mm CSP Packages
Description of Functional Blocks
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7 Description of Functional Blocks
7.1 RF Receiver
The receiver features a near zero Intermediate Frequency (IF) architecture that allows the channel filters to be
integrated on to the die. Sufficient out of band blocking specification at the Low Noise Amplifier (LNA) input
allows the radio to be used in close proximity to Global System for Mobile Communications (GSM) and Wideband
Code Division Multiple Access (W-CDMA) cellular phone transmitters without being desensitised. The use of a
digital Frequency Shift Keying (FSK) discriminator means that no discriminator tank is needed, and its excellent
performance in the presence of noise allows BlueCore2-ROM to exceed the Bluetooth requirements for
co-channel and adjacent channel rejection.
7.1.1 Low Noise Amplifier
The LNA can be configured to operate in single ended or differential mode. Single ended mode is used for
Class 1 Bluetooth operation and differential mode is used for Class 2 operation.
7.1.2 Analogue to Digital Converter
The analogue to digital converter (ADC) is used to implement fast automatic gain control (AGC). The ADC
samples the Received Signal Strength Indicator (RSSI) voltage on a slot by slot basis. The front end LNA gain is
changed according to the measured RSSI value, keeping the first mixer input signal within a limited range. This
improves the dynamic range of the receiver, improving performance in interference limited environments.
7.2 RF Transmitter
7.2.1 IQ Modulator
The transmitter features a direct IQ modulator to minimise the frequency drift during a transmit timeslot which
results in a controlled modulation index. A digital baseband transmit filter provides the required spectral shaping.
7.2.2 Power Amplifier
The internal power amplifier (PA) has a maximum output power of +6dBm allowing BlueCore2-ROM to be used
in Class 2 and Class 3 radios without an external RF PA. Support for transmit power control allows a simple
implementation for Class 1 with an external RF PA.
7.2.3 Auxiliary DAC
An 8-bit voltage Auxiliary DAC is provided for power control of an external PA for Class 1 operation.
7.3 RF Synthesiser
The radio synthesiser is fully integrated onto the die with no requirement for an external voltage controlled
oscillator (VCO) screening can, varactor tuning diodes, LC resonators or loop filter.
7.4 Clock Input and Generation
The reference clock for the system is generated from a TCXO or crystal input between 8 and 40MHz. All internal
reference clocks are generated using a phase locked loop (PLL), which is locked to the external reference
frequency.
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7.5 Baseband and Logic
7.5.1 Memory Management Unit
The memory management unit (MMU) provides a number of dynamically allocated ring buffers that hold the data
which is in transit between the host and the air or vice versa. The dynamic allocation of memory ensures efficient
use of the available random access memory (RAM) and is performed by a hardware MMU to minimise the
overheads on the processor during data/voice transfers.
7.5.2 Burst Mode Controller
During radio transmission the burst mode controller (BMC) constructs a packet from header information
previously loaded into memory mapped registers by the software and payload data/voice taken from the
appropriate ring buffer in the RAM. During radio reception, the BMC stores the packet header in memory mapped
registers and the payload data in the appropriate ring buffer in RAM. This architecture minimises the intervention
required by the processor during transmission and reception.
7.5.3 Physical Layer Hardware Engine DSP
Dedicated logic is used to perform the following:
Forward error correction (FEC)
Header error control (HEC)
Cyclic redundancy check (CRC)
Encryption
Data whitening
Access code correlation
Audio transcoding
The following voice data translations and operations are performed by firmware:
A-law/µ-law/linear voice data from host
A-law/µ-law/Continuously Variable Slope Delta (CVSD) over the air
Voice interpolation for lost packets
Rate mismatches
7.5.4 RAM
32Kbytes of on chip RAM is provided and is shared between the ring buffers used to hold voice/data for each
active connection and the general purpose memory required by the Bluetooth stack.
7.5.5 ROM
4Mbits of metal programmable ROM is provided for system firmware implementation.
7.5.6 USB
This is a full speed universal serial bus (USB) interface for communicating with other compatible digital devices.
BlueCore2-ROM acts as a USB peripheral, responding to requests from a Master host controller such as a PC.
7.5.7 Synchronous Serial Interface
This is a synchronous serial port interface (SPI) for interfacing with other digital devices. The SPI port can be
used for system debugging.
7.5.8 UART
This is a standard Universal Asynchronous Receiver Transmitter (UART) interface for communicating with other
serial devices.
7.5.9 Audio PCM Interface
The audio pulse code modulation (PCM) Interface supports continuous transmission and reception of PCM
encoded audio data over Bluetooth.
Description of Functional Blocks
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7.6 Microcontroller
The microcontroller, interrupt controller and event timer run the Bluetooth software stack and control the radio
and host interfaces. A 16-bit reduced instruction set computer (RISC) microcontroller is used for low power
consumption and efficient use of memory.
7.6.1 Programmable I/O
BlueCore2-ROM has up to 15 (12 digital and 3 analogue) programmable I/O terminals. These are controlled by
firmware running on the device.
CSR Bluetooth Software Stacks
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8 CSR Bluetooth Software Stacks
8.1 Important Information
Due to the nature of a ROM device the initial boot configuration of CSR’s generic ROM part is fixed to a
predetermined default configuration. Areas covered include clock frequency, host transport, baud rate, persistent
store values, etc.
To reconfigure the device to meet a design’s requirements the PIO lines are read during the initial cold boot
procedure and the device is reprogrammed accordingly. These new settings are activated after sending a warm
reset to the device.
For details of the implementation and the PIO line configurations please refer to latest software release note.
BlueCore2-ROM is supplied with Bluetooth stack firmware which runs on the internal RISC microcontroller. This
is compliant with the Bluetooth specification v1.1.
The BlueCore2-ROM software architecture allows Bluetooth processing overheads to be shared in different ways
between the internal RISC microcontroller and the host processor. The upper layers of the Bluetooth stack
(above HCI) can be run either on chip or on the host processor.
Running the upper stack on BlueCore2-ROM reduces or eliminates in the case of a virtual machine (VM)
application, the need for host side software and processing time. Running the upper layers on the host processor
allows greater flexibility.
8.2 BlueCore HCI Stack
Figure 8.1: BlueCore HCI Stack
In the implementation shown in Figure 8.1, the internal processor runs the Bluetooth stack up to the Host
Controller Interface (HCI). All upper layers must be provided by the Host processor.
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8.2.1 Key Features of the HCI Stack
Standard Bluetooth Functionality
The firmware has been written against the Bluetooth Core Specification v1.1
Bluetooth components: Baseband (including LC), LM and HCI
Standard USB v1.1 and UART (H4) HCI transport layers
All standard radio packet types
Full Bluetooth data rate, up to 723.2kb/s asymmetric (1)
Operation with up to 7 active slaves (1)
Maximum number of simultaneous active ACL connections: 7(2)
Maximum number of simultaneous SCO connections: 3(2)
Operation with up to 3 SCO links, routed to one or more slaves
Role switch: can reverse Master/Slave relationship
All standard SCO voice codings, plus “transparent SCO”
Standard operating modes: page, inquiry, page-scan and inquiry-scan
All standard pairing, authentication, link key and encryption operations
Standard Bluetooth power saving mechanisms: Hold, Sniff and Park modes, including Forced Hold
Dynamic control of peers’ transmit power via LMP
Master/Slave switch
Broadcast
Channel quality driven data rate
All standard Bluetooth test modes
The firmware’s supported Bluetooth features are detailed in the standard Protocol Implementation Conformance
Statement (PICS) documents, available from www.csrsupport.com.
Notes:
(1) Maximum allowed by Bluetooth specification v1.1
(2) BlueCore2-ROM supports all combinations of active ACL and SCO channels for both Master and Slave
operation, as specified by the Bluetooth specification v1.1
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Extra Functionality
The firmware extends the standard Bluetooth functionality with the following features:
Supports BlueCore serial protocol (BCSP), a proprietary, reliable alternative to the standard Bluetooth
H4 UART Host Transport
Provides a set of approximately 50 manufacturer-specific HCI extension commands. This command set,
called BCCMD (BlueCore Command), provides:
Access to the device’s general-purpose PIO port
Access to the device’s Bluetooth clock (this can help transfer connections to other Bluetooth
devices)
The negotiated effective encryption key length on established Bluetooth links
Access to the firmware’s random number generator
Controls to set the default and maximum transmit powers e.g. These can help minimise interference
between overlapping, fixed-location piconets
Dynamic UART configuration
Radio transmitter enable/disable e.g. A simple command connects to a dedicated hardware switch
that determines whether the radio can transmit
The firmware can read the voltage on a pair of the chip’s external pins e.g. This is normally used to build
a battery monitor, using either VM or host code.
A block of BCCMD commands provides access to the chip’s Persistent Store configuration database.
The database sets the device’s Bluetooth address, Class of device, radio (transmit class) configuration,
SCO routing, LM and USB.
A UART break condition can be used in three ways:
Presenting a UART break condition to the chip can force the chip to perform a hardware reboot
Presenting a break condition at boot time can hold the chip in a low power state, preventing normal
initialisation while the condition exists
With BCSP, the firmware can be configured to send a break to the host before sending data
normally used to wake the host from a deep sleep state
A block of radio test or BIST commands allows direct control of the device’s radio. This aids the
development of modules’ radio designs, and can be used to support Bluetooth qualification.
Virtual Machine (VM). The firmware provides the VM environment in which to run application-specific
code. Although the VM is mainly used with BlueLab™ and RFCOMM builds (alternative firmware builds
providing L2CAP, SDP and RFCOMM), the VM can be used with this build to perform simple tasks such
as flashing LEDs via the chip’s PIO port.
Hardware low power modes:
Shallow sleep
Deep sleep
The device drops into modes that significantly reduce power consumption when the software goes idle.
SCO channels are normally routed over HCI (over BCSP). However, a single SCO channel can be
routed over the chip’s single PCM port at the same time as routing up to two other SCO channels over
HCI. Alternatively up to 3 SCO channels can be mapped to the PCM port.
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8.3 BlueCore RFCOMM Stack
Figure 8.2: BlueCore RFCOMM Stack
In this version of the firmware the upper layers of the Bluetooth stack up to RFCOMM are run on chip. This
reduces host side software and hardware requirements at the expense of some of the power and flexibility of the
HCI only stack.
8.3.1 Key Features of the BlueCore2-ROM RFCOMM Stack
Interfaces to Host
RFCOMM, an RS-232 serial cable emulation protocol
SDP, a service database look-up protocol
Connectivity
Maximum number of active slaves: 3
Maximum number of simultaneous active ACL connections: 3
Maximum number of simultaneous active SCO connections: 3
Data Rate: up to 350Kb/s
Security
Full support for all Bluetooth security features up to and including strong 128-bit encryption
Power Saving
Full support for all Bluetooth power saving modes Park, Sniff and Hold
Data Integrity
Channel quality driven data rate (CQDDR) increases the effective data rate in noisy environments.
Receive signal strength indication (RSSI) used to minimise interference to other radio devices using the
industrial, scientific and medical (ISM) band
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8.4 BlueCore Virtual Machine Stack
Figure 8.3: Virtual Machine
This version of the stack firmware requires no host processor. All software layers, including application software,
run on the internal RISC microcontroller in a protected user software execution environment known as a virtual
machine (VM).
The user may write custom application code to run on the BlueCore VM using BlueLab software development kit
(SDK) supplied with the BlueLab and Casira™ development kits, available separately from CSR. This code will
then execute alongside the main BlueCore firmware. The user is able to make calls to the BlueCore firmware for
various operations.
The execution environment is structured so the user application does not adversely affect the main software
routines, thus ensuring that the Bluetooth stack software component does not need re-qualification when the
application is changed.
Using the VM and the BlueLab SDK the user is able to develop applications such as a cordless headset or other
profiles without the requirement of a host controller. BlueLab is supplied with example code including a full
implementation of the headset profile.(1)
On successful completion of firmware development and testing using BlueCore2-Flash (BC215159A), CSR can
commit the code to a mask set for mass production of the device. A non recurring engineering (NRE) charge will
be required.
Note:
Sample applications to control PIO lines can also be written with BlueLab SDK and the VM for the HCI stack.
(1)
BlueLab Professional contains headset
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8.5 BlueCore HID Stack
Figure 8.4: HID Stack
This version of the stack firmware requires no host processor. All software layers, including application software,
run on the internal RISC microcontroller in a protected user software execution environment known as a virtual
machine (VM).
The user may write custom application code to run on the BlueCore VM using BlueLab Professional software
development kit (SDK) supplied with the BlueLab Professional and Casira development kits, available separately
from CSR. This code will then execute alongside the main BlueCore firmware. The user is able to make calls to
the BlueCore firmware for various operations.
The execution environment is structured so the user application does not adversely affect the main software
routines, thus ensuring that the Bluetooth stack software component does not need re-qualification when the
application is changed.
Using the VM and the BlueLab Professional SDK the user is able to develop Bluetooth HID devices such as an
optical mouse or keyboard. The user is able to customise features such as power management and
connect/reconnect behaviour.
The HID I/O component in the HID stack controls low latency data acquisition from external sensor hardware.
With this component running in native code, it does not incur the overhead of the VM code interpreter. Supported
external sensors include 5 mouse buttons, the Agilent ADNS-2030 optical sensor, quadrature scroll wheel, direct
coupling to a keyboard matrix and a UART interface to custom hardware.
On successful completion of firmware development and testing using BlueCore2-Flash (BC215159A), CSR can
commit the code to a mask set for mass production of the device. A non recurring engineering (NRE) charge will
be required.
A reference schematic for implementing a three button, optical mouse with scroll wheel is available from CSR.
CSR Bluetooth Software Stacks
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8.6 Host Side Software
BlueCore2-ROM can be ordered with companion host side software:
BlueCore2-PC includes software for a full Windows 98/ME, Windows 2000 or Windows XP Bluetooth
host side stack together with chip hardware described in this document.
BlueCore2-Mobile includes software for a full host side stack designed for modern ARM based mobile
handsets together with chip hardware described in this document.
8.7 Additional Software for Other Embedded Applications
When the upper layers of the Bluetooth protocol stack are run as firmware on BlueCore2-ROM, a UART software
driver is supplied that presents the L2CAP, RFCOMM and Service Discovery (SDP) APIs to higher Bluetooth
stack layers running on the host. The code is provided as ‘C’ source or object code.
8.8 CSR Development Systems
CSR’s BlueLab and Casira development kits are available to allow the evaluation of the BlueCore2 hardware and
software, and as toolkits for developing on chip and host software.
Application Schematics
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9 Application Schematics
9.1 6 x 6 VFBGA 84-Ball Package
9.1.1 Application Schematic using Separate Balun and Filter
Figure 9.1: Application Circuit using Separate Balun and Filter for 6 x 6 VFBGA Package
Application Schematics
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9.1.2 Application Schematic using Epcos Combined Balun and Filter
L5
2n2
C1
18p
+1V8
L3
22n
10n
C3
+1V8 +1V8 +3V15 +1V8
2u2
C6
+1V8
TBD
R2
+3V15
R3
TBD R5
100k 47n
C9
+3V15
1p
C11
L2
22n 2R2
R1
47n
C8
R4
100k
SMA-PCB-EDGE
J1
L1
22n
C2
2p2
C4
10n 10n
C5
C7
2u2
+3V15
SMA-PCB-RA
J3
+1V8
3IN_GND
5
GND
1IN_GND
2UNBAL
6
BAL
4
BAL
U2
EPCOS SAW
LF79A
2n7
L4
10n
C10
3CLK
2
G
N
D
4
VCC
1
AFC
U3
VCXO KT18
26MHz
H1
VDD_VCO
C1
VDD_RADIO
D10
VDD_PADS
K4
VDD_ANA
A6
VDD_MEM
K7
VDD_MEM
K6
VREG_IN
K3
XTAL_IN
E2 VSS_RADIO
D9 VSS_PADS
F3 VSS
J2 VSS_ANA
B10 VSS_MEM
J5
AIO[2]
C7
RESET
J8
USB_DP
G9
PCM_I
N
B1
PIO[0]
B4
PIO[3]
F10
PIO[6]
C3
PIO[9]
C2
VDD_RADIO
A7
VDD_MEM
A3
VDD_PIO
K9
VDD_USB
E10
VDD_CORE
J6
VDD_MEM H6
VDD_MEM
J4
VSS_ANA
J3
XTAL_OUT
H4
AIO[0]
C6
TEST_EN
D8
RESETB
H5
AIO[1]
C9
SPI_CSB
K8
USB_D
N
B2
PIO[1]
E8
PIO[4]
F8
PIO[5]
B3
PIO[2]
C4
PIO[10]
C5
PIO[8]
E3
PIO[11]
D2 VSS_RADIO
F2 VSS_RADIO
K2 VSS_ANA
A1 VSS_PIO
A2 VSS_PIO
E9 VSS_CORE
B5 VSS_MEM
B7 VSS_MEM
J7 VSS_MEM
A10 VSS_MEM
K10 VSS_USB
J9 VSS_USB
B8 FLASH_EN
F9
PIO[7]
H2 LOOP_FILTER
D3 AUX_DAC
E1 TX_B
F1 TX_A
D1 RF_IN
G2 VSS_VCO
G1 VSS_VCO
A9
VDD_MEM
H7
UART_RTS
H9
UART_RX
C8
SPI_MOSI
B9
SPI_MISO
J10
UART_TX
C10
SPI_CLK
G10
PCM_SY
N
C
G8
PCM_OUT
H8
UART_CTS
H10
PCM_CLK
BC213143A
U1
Figure 9.2: Application Circuit using Epcos Balun and Filter for 6 x 6 VFBGA Package
Application Schematics
BC213143A-ds-001Pf
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9.1.3 Application Schematic using Soshin Combined Balun and Filter
Figure 9.3: Application Circuit using Soshin Balun and Filter for 6 x 6 VFBGA Package
Application Schematics
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9.2 4 x 4 CSP 49-Ball Package
L5
22n
C6
1
p
8
+
1
V
8
C5
10n
+
1
V
8
3p3
C9
C7
2u2
+
1
V
8
+
1
V
8
10p
C10
+
3
V
1
5+
3
V
1
5
10n
C8
L4
22n
2R2
R2
L1
15n
+1V8
10n
C4
C14
10n
+
3
V
1
5
2u2
C1
C11
15p
6
GND
5
GND
2DC 4
BAL
3
BAL
1
UNBAL
U2
SOSHIN DBF71B 101
16MHz
X1
VDD_PIO
VDD_CORE
VSS_VCO
VSS_RADIO
VSS_RADIO
VSS_PIO
VSS_PADS
VSS_ANA
VSS_USB
TX_B
TX_A
AIO[1]
RESETB
UART_TX
USB_D
N
SPI_CSB
SPI_CLK
PCM_OUT
PIO[2]
PIO[5]
PIO[8]
VDD_RADIO
VDD_VCO
VDD_A
N
A
VDD_PADS
VDD_USB
AIO[0]
TEST_E
N
AIO[2]
UART_CTS
SPI_MISO
UART_RX
USB_DP
SPI_MOSI
PCM_CLK
PCM_SY
N
C
PIO[1]
PIO[4]
PCM_I
N
PIO[0]
PIO[3]
VREG_I
N
PIO[7]
PIO[9]
XTAL_IN
XTAL_OUT
UART_RTS
PIO[6]
AUX_DAC
BC213143A
U1
Figure 9.4: Application Circuit for 4 x 4 CSP Package
Package Dimensions
BC213143A-ds-001Pf
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10 Package Dimensions
10.1 6 x 6 VFBGA 84-Ball Package
Top View Bottom View
Figure 10.1: BlueCore2-ROM VFBGA Package Dimensions
Package Dimensions
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10.2 4 x 4 CSP 47-Ball Package
Top View Bottom View
Figure 10.2: BlueCore2-ROM CSP Package Dimensions
Ordering Information
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11 Ordering Information
11.1 BlueCore2-ROM
Package
Interface Version
Type Size
Shipment
Method
Order Number
84-Ball VFBGA 6x6x1mm Tape and reel BC213143AXX-EK-E4
84-Ball VFBGA
(Pb free) 6x6x1mm Tape and reel BC213143AXX-RK-E4
UART and USB
47-Ball CSP
(Pb free) 4x4x0.7mm Tape and reel BC213143AXX-XB-E4
Note:
XX denotes firmware type and firmware version status. These are determined on a customer and project
basis.
Minimum Order Quantity: 2kpcs Taped and Reeled
Contact Information
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12 Contact Information
CSR U.S.
1651 N. Collins Blvd.
Suite 210
Richardson
TX75080
Tel: +1 (972) 238 2300
Fax: +1 (972) 231 1440
e-mail: sales@csr.com
CSR UK
Cambridge Science Park
Milton Road
Cambridge, CB4 0WH
United Kingdom
Tel: +44 (0) 1223 692 000
Fax: +44 (0) 1223 692 001
e-mail: sales@csr.com
CSR Denmark
Novi Science Park
Niels Jernes Vej 10
9220 Aalborg East
Denmark
Tel: +45 72 200 380
Fax: +45 96 354 599
e-mail: sales@csr.com
CSR Japan
9F Kojimachi KS Square 5-3-3,
Kojimachi, Chiyoda-ku,
Tokyo 102-0083
Japan
Tel: +81 3 5276 2911
Fax: +81 3 5276 2915
e-mail: sales@csr.com
CSR Singapore
Blk 5, Ang Mo Kio
Industrial Park 2A,
AMK Tech II, #07-08
Singapore 567760
Tel: +65 6484 2212
Fax: +65 6484 2219
e-mail: sales@csr.com
CSR Korea
Rm. 1111 Keumgang Venturetel,
#1108 Beesan-dong,
Dong An-ku, Anyang-city,
Kyunggi-do 431-050,
Korea
Tel: +82 31 389 0541
Fax : +82 31 389 0545
e-mail: sales@csr.com
To contact a CSR representative, go to http://www.csr.com/contacts.htm
Document References
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13 Document References
Document: Reference, Date:
Specification of the Bluetooth system v1.1, 22 February 2001
Universal Serial Bus Specification v1.1, 23 September 1998
I2C EEPROMS for Use with BlueCore CSR document bcore-an-008Pa, October 2002
Acronyms and Definitions
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_äìÉ`çêÉ
O
Ó
olj=Product Data Sheet
Acronyms and Definitions
Term: Definition:
BlueCore Group term for CSR’s range of Bluetooth chips.
Bluetooth A set of technologies providing audio and data transfer over short-range radio
connections
ACL Asynchronous Connection-Less. A Bluetooth data packet.
AC Alternating Current
ADC Analogue to Digital Converter
AGC Automatic Gain Control
A-law Audio encoding standard
API Application Programming Interface
ASIC Application Specific Integrated Circuit
BCSP BlueCore™ Serial Protocol
BER Bit Error Rate. A measure of the quality of a link
BGA Ball Grid Array
BIST Built-In Self-Test
BOM Bill of Materials. Component part list and costing for a product
BMC Burst Mode Controller
C/I Carrier Over Interferer
CMOS Complementary Metal Oxide Semiconductor
CODEC Coder Decoder
CPU Central Processing Unit
CQDDR Channel Quality Driven Data Rate
CSP Chip Scale Package
CSR Cambridge Silicon Radio
CTS Clear to Send
CVSD Continuous Variable Slope Delta Modulation
DAC Digital to Analogue Converter
dBm Decibels relative to 1mW
DC Direct Current
DFU Device Firmware Upgrade
FSK Frequency Shift Keying
GCI General Circuit Interface. Standard synchronous 2B+D ISDN timing interface
GSM Global System for Mobile communications
HCI Host Controller Interface
IQ Modulation In-Phase and Quadrature Modulation
IF Intermediate Frequency
ISDN Integrated Services Digital Network
ISM Industrial, Scientific and Medical
ksamples/s kilosamples per second
L2CAP Logical Link Control and Adaptation Protocol (protocol layer)
LC Link Controller
LCD Liquid Crystal Display
LGA Land Grid Array
Acronyms and Definitions
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_äìÉ`çêÉ
O
Ó
olj=Product Data Sheet
LNA Low Noise Amplifier
LSB Least-Significant Bit
µ-law Audio Encoding Standard
MMU Memory Management Unit
MISO Master In Serial Out
OHCI Open Host Controller Interface
PA Power Amplifier
PCB Printed Circuit Board
PCM Pulse Code Modulation. Refers to digital voice data
PIO Parallel Input Output
PLL Phase Lock Loop
ppm parts per million
PS Key Persistent Store Key
RAM Random Access Memory
REF Reference. Represents dimension for reference use only.
RF Radio Frequency
RFCOMM Protocol layer providing serial port emulation over L2CAP
RISC Reduced Instruction Set Computer
rms root mean squared
ROM Read Only Memory
RSSI Receive Signal Strength Indication
RTS Ready To Send
RX Receive or Receiver
SCO Synchronous Connection-Oriented. Voice oriented Bluetooth packet
SDK Software Development Kit
SDP Service Discovery Protocol
SIG Special Interest Group
SOC System On Chip
SPI Serial Peripheral Interface
SRAM Static Random Access Memory
SSL Secure Sockets Layer
SUT System Under Test
SW Software
TBD To Be Defined
TX Transmit or Transmitter
UART Universal Asynchronous Receiver Transmitter
USB Universal Serial Bus or Upper Side Band (depending on context)
VCO Voltage Controlled Oscillator
VFBGA Very Fine Ball Grid Array
VM Virtual Machine
W-CDMA Wideband Code Division Multiple Access
Status Information
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_äìÉ`çêÉ
O
Ó
olj=Product Data Sheet
Status Information
The status of this Data Sheet is Production Information.
Important Note:
Performance and characterisation data reported is not guaranteed for the CSP package option. All data should
be regarded as Pre-Production Information with respect to the CSP package.
CSR Product Data Sheets progress according to the following format:
Advance Information:
Information for designers on the target specification for a CSR product in development.
All detailed specifications including pinouts and electrical specifications may be changed by CSR without notice.
Pre-Production Information:
Final pinout and mechanical dimensions. All electrical specifications may be changed by CSR without notice.
Production Information:
Final Data Sheet including the guaranteed minimum and maximum limits for the electrical specifications.
Production Data Sheets supersede all previous document versions.
Life Support Policy and Use in Safety-Critical Applications:
CSR’s products are not authorised for use in life-support or safety-critical applications.
Trademarks, Patents and Licenses:
BlueCore™, BlueLab™, Casira™, CompactSira™ and MicroSira™ are trademarks of CSR.
Bluetooth® and the Bluetooth logos are trademarks owned by Bluetooth SIG Inc, USA and licensed to CSR.
Windows®, Windows 98™, Windows 2000™, Windows XP™ and Windows NT™ are registered trademarks of the
Microsoft Corporation.
I2C™ is a trademark of Philips Corporation.
All other product, service and company names are trademarks, registered trademarks or service marks of their
respective owners.
The publication of this information does not imply that any license is granted under any patent or other rights
owned by CSR Ltd.
CSR reserves the right to make technical changes to its products as part of its development programme.
While every care has been taken to ensure the accuracy of the contents of this document, CSR cannot accept
responsibility for any errors.
Record of Changes
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olj=Product Data Sheet
Record of Changes
Date: Revision Reason for Change:
JANUARY 2002 a Latest information for BlueCore2-ROM.
APRIL 2002 b Addition of pinout information and specification updates.
APRIL 2002 c Pin H6 now designated as VDD_MEM instead of not connected.
JULY 2002 d Conversion to new document format.
JANUARY 2003 e Latest package information for BlueCore2-ROM.
JUNE 2003 f CSP package information updated.
BlueCore™2-ROM
Product Data Sheet
BC213143A-ds-001Pf
June 2003
