PANASONIC AN6167

AN6167S, AN6167SB
Cordless Telephone Speech Network IC
■ Overview
Unit : mm
AN6167S
0.1±0.1
to make level and frequency adjustments easier.
• The standby circuit provides for a low-power consumption
0.3
cordless telephone.
• The expander has a 6-dB amplifier to allow received-signal
amplificaition.
• SOP package with 1.27mm pitch pins, and USO package
with 0.8mm pitch pins.
17.81±0.3
0.15
1.27
■ Features
• The compressor/expander circuit incorporates preamplifiers
28
27
26
25
24
23
22
21
20
19
18
17
16
15
1
2
3
4
5
6
7
8
9
10
11
12
13
14
0.925
2.0±0.2
0.4±0.25 0.45
The AN6167S and AN6167SB are speech network ICs for
the handset of a cordless telephone. They incorporate compander, MIC, and receiver amplifiers. With a minimal number of
external components, they can perform all the functions of the
handset of a cordless telephone featuring low radio-transmission noise.
7.2±0.3
9.4±0.3
SOP package with 28 pins (SOP028-P-0375A)
Unit : mm
(0.45)
AN6167SB
28
0.8
11.6±0.3
0.3±0.1
1
0.15
0.9
0.1±0.1
0.3
7.2±0.3
9.3±0.3
2.0±0.2
15
14
SSOP package with 28 pins (SSOP028-P-0375)
■ Block Diagram
VCC
EPI
EPN
28
27
26
EPO ECCA EDET EOUT EREF VREF STC STBV DG
25
24
23
22
21
20
19
18
17
RIN GNDG
16
15
DET
VRE
–
+E
D6dB
–
+
CCA
POWER
STBY
REC
+
–
REC
CCA
+
–
+
–C
VRC
VRR
11
12
DET
1
2
GNDC CPI
3
CPN
4
5
6
7
CPO CCCA CDET CIN
8
9
10
13
14
COR COUT CPC CREF RREF RO –2 RO –1
■ Absolute Maximum Ratings (Ta=25˚C)
Symbol
Rating
Supply voltage
Parameter
VCC
7.5
Unit
V
Input supply voltage
Vin
– 0.3 to VCC + 0.3
V
Output supply voltage
Vout
– 0.3 to VCC + 0.3
V
Power dissipation (Ta = 75˚C)
PD
280
Operating ambient temperature
Topr
–20 to + 75
˚C
Storage temperature
Tstg
–55 to +150
˚C
mW
■ Recommended Operating Range (Ta=25˚C)
Parameter
Symbol
Range
VCC
2 to 5V
Operating supply voltage range
■ Electrical Characteristics (Ta=25˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
Compressor
RA/RB=51kΩ/5.1kΩ,
Vin=–40dBV
RA/RB=51kΩ/5.1kΩ,
THD=5%, RL=1kΩ
VIRC=–20dBV
(Ref. output)
Preamplifier voltage gain
GPC
Preamplifier output voltage
VPC
Reference output
VORC
∆ Gain (1)
∆C1
∆ Gain (2)
∆C2
Vin=VIRC–20dB,
∆C1=VORC–VOC1
Vin=VIRC–40dB,
∆C2=VORC–VOC2
Distortion
THDC
Vin=–20dBV
Maximum output voltage
VOCM
Output noise voltage
VNOC
THD=5%, RL=1kΩ
Rg=2kΩ with a CCITT filter
20
21
–10
–7
–13
–11
–9
dBV
–11
–10
–9
dB
–22
–20
–19
dB
0.5
1
–10
22
dB
dBV
–7
%
dBV
–64
–56
dBV
20
21
22
dB
–10
–7
–32
–29
–26
dBV
–21
–20
–19
dB
–41.5
–40
–38.5
dB
0.5
1
Expander
∆ Gain (1)
∆E1
∆ Gain (2)
∆E2
Distortion
THDE
RA/RB=51kΩ/5.1kΩ,
Vin=–40dBV
RA/RB=51kΩ/5.1kΩ,
THD=5%, RL=1kΩ
VIRE=–20dBV
(Ref. output)
Vin=VIRC–10dB,
∆E1=VORE–VOE1
Vin=VIRC–20dB,
∆E2=VORE–VOE2
Vin=–20dBV
Maximum output voltage
VOFM
THD=5%, RL=1kΩ
Output noise voltage
VNOE
Rg=2kΩ with a CCITT filter
Receiver amp. gain
∆GE
Pin17 ON [GND]
Receiver voltage characteristics
GVR
Maximum output voltage
VOEM
Current consumption
Receiver voltage characteristics
Preamplifier voltage gain
GPE
Preamplifier output voltage
GPE
Reference output
VORE
–10
dBV
–7
%
dBV
–95
–90
dBV
4
6
8
dB
Vin=–30dB, RL=1kΩ
18
20
22
THD=5%, RL=1kΩ
2
5
ICC
VCC=3V, no signal
3
5
8
mA
ISC
Standby pin (H)
1
10
µA
Receiver amplifier
dB
dBV
Power supply
■ Pin Descriptions
Pin No.
Symbol
1
GNDC
Description
Pin No.
Symbol
Compander GND
15
GNDR
Description
REC GND
2
CPI
COMP preamp. input (+)
16
RIN
REC external signal input
3
CPN
COMP preamp. input (–)
17
DG
REC 6-dB amplification
4
CPO
COMP preamp. output
18
STBY
5
CCCA
COMP-CCA input
19
STC
Standby adjustment
6
CDET
COMP detection
20
VREF
Compander VREF
7
CIN
COMP signal input
21
EREF
EXP-VREF
8
COR
COMP output VREF
22
EOUT
EXP output
Standby
9
COUT
COMP output
23
EDET
EXP detection
10
CPC
COMP phase adjustment
24
ECCA
EXP-CCA input
11
CREF
COMP-VREF
25
EPO
EXP preamp. output
12
RREF
REC-VREF
26
EPN
EXP preamp. input (–)
13
RO–2
REC output (2)
27
EPI
EXP preamp. input (+)
14
RO–1
REC output (1)
28
VCC
Supply voltage
■ Application Circuit
5.1kΩ
28
27
26
25
24
23
22
21
+
+
20
19
10µF
10µF
+
33µF
1kΩ
+
10µF
+
2.2µF
10µF
+
51kΩ
1µF
1kΩ
1µF
+
+
18
17
16
15
DET
–
+E
VRE
D6dB
REC
CCA
POWER
–
+
STBY
+
–
REC
CCA
+
–
+
C
–
VRC
VRR
11
12
DET
1
2
3
4
5
6
7
8
9
10
1kΩ
10µF
+
+
22µF
5.1kΩ
2.2µF
+
+
10µF
51kΩ
1µF
1kΩ 180pF
+
+
+
+
100µF
3V
REC IN
ECCA IN
EP IN
COMP IN
10µF
CP IN
10µF
1kΩ
13
14