DELTA DLBM

DLBM-CA120/121
DLBM-CA120 (16Kbit EEPROM)
DLBM-CA121 (64Kbit EEPROM)
TM
Bluetooth
Module Class 2
A Class 2 Bluetooth module suitable for
wireless Audio applications.
1.FEATURES:
z Suitable for Headset, MP3… applications.
z Reducing the size and thickness greatly using high-density
packaging technology.
z High sensitivity to achieve better performance.
z Compliant to various interfaces: UART, USB, PIO...
z Wide operating temperature range: -30~+80℃.
2.Device diagram
Figure 1. DLBM-CA120/CA121 Block Diagram
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
3.General Specification
Bluetooth TM Specification
Version 1.1
Frequency
2402~2480MHz
Modulation
FHSS/GFSK
Transmission rate
721kbps
Receive sensitivity
-83dBm
Maximum output power
+4dBm(Class 2)
Operating Voltage
1.8V or 2.2~3.6V
Operating temperature
-30~+80℃
Antenna Impedance
50 ohm
Package size
9.1*7.9*1.5mm
Talk time (Audio application)
*Up to 4.5 hours (120mA Battery)
Stand-by time (Audio application)
*Up to 200 hours (120mA Battery)
* Base on application circuit figure 7*
4.Rating
Min
Max
Unit
Storage Temperature
-40
+150
℃
VDD_1.8V
-0.4
+1.9
V
VDD_IO
-0.4
+3.6
V
VREG_IN
-0.4
+4.2
V
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
5.Recommended Operating conditions
Min
Max
Unit
-10
+70
℃
VDD_1.8V
+1.7
+1.9
V
VDD_IO
+2.7
+3.6
V
VREG_IN
+2.2
+4.2
V
Guaranteed RF performance
range
6.Interface
Interface
Antenna
UART Interface
Description
External Antenna 50 ohm
TX,RX,RTS,CTS(9600bps~1.5Mbps)
SPI Interface
Synchronous Serial Interface for firmware download
PIO Interface
9 terminals
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
7.Power Supply Diagram
ANT
VDD_1.8V
●
BPF
BC2-Audio
Balun
EEPROM
VDD_IO
VREG_IN
X’tal
Figure 2. Power Supply Diagram
Terminal
VDD=3.0V
VDD=1.8V
VDD_1.8V
NC
1.7 to 1.9V
VDD_IO
2.7 to 3.6V
2.7 to 3.6V
VREG_IN
2.7 to 3.6V
NC
8.RF Characteristics
Operating Condition: +25℃, VDD=1.8V
RF Characteristics
Min.
Typ.
Max.
Unit
2400 ~ 2483.5
-6
1.5
4
MHz
dBm
1) 2402MHz
-70
-83
dBm
2) 2441MHz
-70
-83
dBm
3) 2480MHz
-70
-20
-83
0
dBm
dBm
1. Fequency Range
2. Output Power
3. Sensitivity at 0.1% BER
4. Maximum Input Level (BER≦0.1%)
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
5. Adjacent channel selectivity
1) C/I F=F0 + 1MHz
-4
0
dB
2) C/I F=F0 - 1MHz
-4
0
dB
3) C/I F=F0 + 2MHz
4) C/I F=F0 - 2MHz
-35
-21
-30
-20
dB
dB
5) C/I F≧F0 + 3MHz
-45
dB
6) C/I F≦F0 - 5MHz
-45
dB
7) C/I F=FImage
-18
-9
dB
1) F=F0 ± 2MHz
-35
-20
dBc
2) F=F0 ± 3MHz
-55
-40
dBc
175
kHz
6. Adjacent channel transmit power
7. Modulation Characteristics
1) Modulation Δf1avg
140
165
2) Modulation Δf2max
115
155
1) 2402MHz
-75
-12
75
kHz
2) 2441MHz
-75
-11
75
kHz
3) 2480MHz
-75
-10
75
kHz
1) 1slot
-20
9
20
kHz
2) 5slot
-25
10
25
kHz
4) Drift rate
-20
6.5
20
KHz/50us
1) 2402MHz
879
1000
KHz
2) 2441MHz
816
1000
KHz
3) 2480MHz
819
9
1000
11
KHz
dB
kHz
8. Initial Carrier Frequency Tolerance
9. Carrier Frequency Drift
10. 20dB Bandwidth for modulated carrier
11.C/I co - channel
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
9.Audio Codec
The DLBM-CA120 CODEC is compatible with the direct speaker drive and microphone input
using a minimum number of external components. It is primarily intended for voice
applications and it is fully operational from a single 1.8 Volt power supply. A fully differential
architecture has been implemented for optimal power supply rejection and low noise
performance. The digital format is 15-bit/sample linear PCM with a data rate of 8kHz.
The CODEC has an input stage containing a microphone amplifier, variable gain amplifier
and aΣ-ΔADC. Its output stage contains a DAC, low-pass filter and output amplifier. The
CODEC functional diagram is shown below:
ΣΔ-ADC
MIC_P
Input Ampler
MIC_N
Digital
Circulty
SPKR_P
Re
DAC
Output
Ampler
SPKR_N
Figure 3. DLBM-CA120 CODEC Diagram
10. Input Stage
A low noise variable gain amplifier amplifies the signal difference between inputs MIC_N
and MIC_P. The input may be from either a microphone or line. The amplified signal is then
digitised by aΣ-ΔADC. The high frequency single bit output from the ADC is converted to
15-bit 8kHz linear PCM data.
The gain is programmable via a PSKEY and has a 42dB range with 3dB resolution. At
maximum gain the full scale input level is 3mV rms. A bias network is required for operation
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
with a microphone whereas the line input may be simply a.c. coupled. The following
sections explain each of these modes. Single ended signals are supported by
DLBM-CA120: a single ended signal may be driven into either MIC_N or MIC_P with the
undriven input coupled to ground by a capacitor.
At the maximum gain the signal to noise ratio is better than 60dB and distortion is better
than –75dB relative to a full-scale sine wave. At lower gain settings (such as used for line
input) the signal to noise ratio improves to better than –75dB.
11. Microphone Input
The DLBM-CA120 CODEC has been designed for use with microphones that have
sensitivities between –60 and –40dBV. The sensitivity of –60dBV is equivalent to a
microphone output of 1μA when presented with an input level of 94dB SPL and loaded
with 1kΩ. The microphone should be biased as shown:
V bias
C1
MIC_P
Input Ampler
RL
C2
MIC_N
MIC
Figure 4. DLBM-CA120 Microphone Biasing
The input impedance at MIC_N and MIC_P is typically 20kΩ. C1 and C2 should be 47nF.
RL sets the microphone load impedance and is normally between 1 and 2kΩ. V bias
should be chosen to suit the microphone and have sufficient low noise. It may be obtained
by filtering the output of a PIO line.
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
12. Line Input
If the input gain is set to less than 21dB DLBM-CA120 automatically selects line input
mode. In this mode the input impedance at MIC_N and MIC_P is increased to 130kΩ
typical. At the minimum gain setting the maximum input signal level is 380 mV rms. Figures
5 show two circuits for line input operation and show connections for either differential or
single ended inputs.
C1
MIC_P
DLBM-CA120
C2
MIC_N
C1
MIC_P
DLBM-CA120
C2
MIC_N
Figure 5. Single-ended Microphone Input
Note: C1 and C2 should be 15nF.
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
13.Output Stage
The digital data is converted to an analogue value by a DAC, then it is filtered prior to
amplification by the output amplifier and it is available as a differential signal between
SPKR_P and SPKR_N. the output amplifier is capable of driving a speaker directly if its
impedance is greater than or equal to 8Ω. The amplifier is stable with capacitive loads up
to 500pF.
The gain is programmable with a range of 21dB and a resolution of 3dB. Maximum output
level is typically 700 mV rms for high impedance loads, or 20mA rms for low impedance
loads. The signal to noise is better than 70dB and the distortion is less than –75dB.
SPKR_P
SPKR_N
Figure 6. Speaker Output
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
14.Reference design for Headset application
Figure 7. Headset application circuit
***Important: The circuit is offered without warranty and Delta is unable to accept any liability for
direct or consequential loss associated with their use. It is therefore important for designers to
ensure that their Bluetooth headset design is properly evaluated in a Design Verification Test.
The results of the Design Verification Test should be used to assess the suitability of the
headset for manufacture.***
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
15. RECOMMENDED REFLOW PROFILE
The temperature rise to 150℃ for preliminary heating shall be made for 30 seconds or longer
The preliminary heating shall be done at the temperature of 160℃+10℃ for 60 ~ 90 seconds.
The heating shall be at the temperature of 200℃ or higher For 20 ~ 40 seconds and the peak
temperature shall be 230℃+5℃
Figure 8. REFLOW PROFILE
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
16.Pin description
Pin No.
Name
1
PIO_11
Programmable I/O terminal
2
PIO_9
Programmable I/O terminal
3
SP+
Speaker output positive
4
SP-
Speaker output negative
5
MIC+
Microphone input positive
6
MIC-
Microphone input negative
7
Gnd
8
Gnd
9
Gnd
10
ANT
11
AIO_0
12
Gnd
13
Gnd
14
Gnd
15
Vdd_1.8V
Refer to Power supply diagram
16
VREG_IN
Refer to Power supply diagram
Data Sheet
Description
RF input/output
Programmable input/output
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
17
VDD_IO
Refer to Power supply diagram
18
USB_DN
USB data minus
19
USB_DP
USB data plus with selectable internal
1.5kohm pull-up resistor
20
UART_TX
UART data output active high
21
UART_RX
UART data input active high
22
UART_CTS
UART clear to send active low
23
UART_RTS
UART request to send active low
24
Reset_B
25
PIO_4
Programmable input/output line
26
PIO_5
Programmable input/output line
27
PIO_10
Programmable input/output line
28
PIO_3
Programmable input/output line
29
Gnd
30
Gnd
31
Gnd
32
PIO_2
Programmable input/output line
33
PIO_1
Programmable input/output line
34
PIO_0
Programmable input/output line
35
SPI_MOSI
Data Sheet
Reset if low
Serial Peripheral Interface data input
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
36
SPI_MISO
37
SPI_CLK
Serial Peripheral Interface clock
38
SPI_CSB
Chip select for Serial Peripheral Interface,
active low
Data Sheet
Serial Peripheral Interface data output
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
17.Dimensions (mm)
A
B
C
D
9.1±0.2
7.9±0.2
1.5±0.2
0.45±0.15
E
F
G
H
0.35±0.15
0.8±0.1
0.4±0.1
0.4±0.1
I
J
K
M
0.8±0.1
0.8±0.1
0.3±0.1
0.7±0.1
N
0.4±0.1
Figure 9. Output pin dimensions
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
18. Layout Guide
Don’t place the ground on the top
layer (Inside area)
Figure 10. Land Pattern
Unit: mm
DLBM-C**2*
T≥5mil
Ground VIA
Main Ground plant
Side View
Figure 11. Layout Example
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change
DLBM-CA120/121
19. Record of changes
Date
Reason of change
Dec 16, 2004’
1) Update application circuit
Engineer
Emerson Shih
2) Create DLBM-CA121 64K EEPROM version
3) Includes SPI pin definition
Dec 30, 2004’
Application circuit upgrade. (Low current consumption Emerson Shih
version)
Jan 17, 2005’
General Specification & Layout Guide correction
Emerson Shih
April 20, 2005’
Includes pin dimension tolerance
Ming Wu
May 20, 2005’
Change dimensions tolerance
1) D:0.4±0.1Î0.45±0.15
Leo Chuang
2) E:0.4±0.1Î0.35±0.15
Contact information:
Website: http://www.deltaww.com
Email: [email protected]
Tel No.: 886-3-3591968#2930
Data Sheet
April 20, 2005
Proprietary Information and Specifications are Subject to Change