PANASONIC AN6150

AN6150
Speech Network Circuit
■ Overview
• Wide operating voltage range : 3 to 11.5V
• Built-in amplifiers for “Dial Tone” and “DTMF”
• Amplifier output switchable.
• Each amplifier gain automatically changeable depending on
16
2
15
3
14
4
13
5
12
6
11
7
10
8
2.54
19.2±0.3
■ Features
1
0.5±0.1
1.22±0.25
Unit : mm
The AN6150 is an integrated circuit designed for telephone
speech network. It has the basic function necessary to apply a
sound signal onto the line and is applicable for various types of
handsets.
9
1.1±0.25
6.2±0.3
line current.
• Various types of microphones and receivers are available.
5.2±0.25
3.05±0.25
+ 0.1 5
0.0
0.3 –
3 to 15˚
7.62±0.25
16-pin DIL Plastic Package (DIP016-P-0300D)
■ Block Diagram
VL
VLC
ST
SF
MIC
DT
DM
KT
16
15
14
13
12
11
10
9
SEND
Main
Amp.
V-I
Control
2V
REG
1V
REG
Current
Check
MIC
PreAmp.
ATT
DTMF
PreAmp.
ATT
Logic
KT
PreAmp.
REC
PreAmp.
REC
Main
Amp.
ATT
1
2
3
4
5
6
7
8
GND
V2
V1
AP
RO1
RO2
RF
RI
■ Pin Descriptions
Pin No.
Pin name
Pin No.
Pin name
1
GND
9
KEY In TONE input
2
2V REG.
10
Dial mute SW
3
1V REG.
11
DTMF input
4
ATT control
12
MIC input
5
REC output
13
Transmission filter
6
REC output
14
SIDE tone
7
REC filter
15
LIN filter
8
REC input
16
LIN
■ Absolute Maximum Ratings (Ta=25˚C)
Parameter
Symbol
Rating
Unit
Line voltage
VL
14.4
V
Line current
IL
135
mA
mW
Power dissipation (Ta=60˚C)
PD
1380
Operating ambient temperature
Topr
–30 to + 75
˚C
Storage temperature
Tstg
–55 to + 150
˚C
■ Electrical Characteristics (IL=40mA, fin=1kHz, Ta=25˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
Receive System
Receiver gain *1
GV– R
Vi=–45dBm
Receiver output distortion *1
Max. receiver level *1
THD– R
Vi=–45dBm
Receiver auto pad *1
∆AP– R
KEY IN TONE gain *1
GV–KT
VO – R
THD=5%
Vi=–45dBm,
DIL=100 to 20mA
Vi=–40dBm,
Dial Mute SW– ON
–7
–4.5
–2
1
5
dBm
%
0
4
–5.5
–3
– 0.5
dB
–25
–22.5
–20
dBm
–6
–4
–2
dBm
1
5
dBm
Transmission System
Transmission gain *2
GV–T
Vi=–45dBm
Transmission output distortion *2
Max. transmission level *2
THD–T
Vi=–45dBm
Transmission auto pad *2
∆AP– T
DTMF gain *2
GV– DT
VO –T
DTMF output distortion *2
THD– DT
DTMF auto pad *2
∆AP– DT
THD=5%
Vi=–45dBm,
DIL=100 to 20mA
Vi=–35dBm,
Dial Mute SW– ON
Vi=–35dBm,
Dial Mute SW– ON
Vi=–35dBm,
DIL=100 to 20mA
%
–2.2
2.8
–6.5
–3.5
–1
dB
–8
–6
–4
dBm
1
5
%
–6
–4
–2
dB
dBm
Power Supply
*1
*2
DC line voltage (1)
VL – 1
IL=12mA
2.4
3
3.6
V
DC line voltage (2)
VL – 2
IL=127mA
5.4
7.8
10.2
V
Internal supply voltage
VCC
IL=12mA
1.7
2.0
2.3
V
Connect the 1kΩ load between Pins5 and 6 for measurement.
Connect the 600Ω receiver impedance between Pins16 and 1 and measure it at the receiver side.
■ Electrical Characteristics (cont.) (IL=40mA, fin=1kHz, Ta=25˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
Dial Mute input
Dial mute OFF
VDM–H
Dial mute ON
VDM–L
Input current (1)
IDM–H
VDM=VCC
–2.0
Input current (2)
IDM–L
VDM=0V
–2.0
0.8
VCC
V
0.3
V
0.1
2.0
µA
– 0.2
– 0.02
µA
Receiver System
K. T. output distortion *1,
4
THD–KT
Vi=–42dBV, IL=40mA
1
%
Mute
K.T. mute *1,
4
M–KT
MIC mute *2,
4
M–T
DTMF mute *2,
4
M–DT
Vi=–15dBV,
Dial mute SW– OFF
Vi=–40dBV,
Dial mute SW– ON
Vi=–28dBV,
Dial mute SW– OFF
40
dB
60
dB
40
dB
Power Supply
AC impedance (1)*3,
AC impedance (2)*3,
4
ZAC–1
IL=30mA, fin=1kHz
400
670
800
Ω
4
ZAC–2
IL=90mA, fin=1kHz
400
620
800
Ω
*1 Connect the 1kΩ load between Pins5 and 6 for measurement
*2 Connect the 600Ω receiver impedance between Pins16 and 1 measure it at the receiver side.
*3 Connect + –
between Pins16 and 1 for measurement.
100µF 820Ω
*4 Characteristics above are of reference valuse for design but not guaranteed values.
■ Characteristics Curve
ZAC – f
800
7
700
Il.=20mA
600
Il.=80mA
AC Impedance ZAC (Ω)
6
5
4
3
2
1
0
500
400
300
200
100
0
40
80
120
0
0.1
160
Line Current IL (mA)
–10
6
–12
4
–14
2
THD
0
40
80
120
0
160
υ in = –37dBV
f =1kHz
–4
10
8
–8
Vout
(DTMF)
–10
6
–12
4
–14
2
THD
0
40
80
120
Line Current IL (mA)
0
160
Distortion THD (%)
–6
–4
10
–6
Vout (MIC)
–8
8
–10
6
–12
4
–14
2
THD
40
80
120
Line Current IL (mA)
Vout (DTMF), THD – IL
–2
10
υ in = –47dBV
f =1kHz
–2
0
Line Current IL (mA)
0
Transmission Auto Pad Vout (MIC) (dBV)
8
Vout
Distortion THD (%)
Receiver Auto Pad Vout (REC) (dBV)
10
–8
5
Vout (MIC), THD – IL
–4
–6
1
0
υ in = –47dBV
f =1kHz
–2
0.5
Frequency f (kHz)
Vout (REC), THD – IL
0
DTMF Auto Pad Vout (DTMF) (dBV)
Il.=50mA
0
160
Distortion THD (%)
Line Voltage VL (V)
VL– IL
8
■ Application Circuits
• In case of using ceramic receiver
R10
4.7kΩ
C9
0.022µF
E C M
Ceramic
R9
12kΩ
DTMF
Key in tone
T
R11
2.7kΩ
R12
R13
9.1
kΩ
9.1kΩ
+
R8
620
Ω
R5
R7
62Ω
–
C8
0.0022µF
C11
100µF
Diode
16
15
14
13
R3
SW2
C6
0.068µF
C7
0.068µF
C10 47µF
L1
R4
C5
0.068µF
12
11
10
9
5
6
7
8
+
–
AN6150
Bridge
R14
L2
820Ω
1
2
3
C1+
470µF
–
C4
0.068µF
SW1
C2
100µF
+
–
4
C3
0.047µF
R1
R2
receiver
• In case of using low impedance receiver
R10
4.7kΩ
C9
0.022µF
E C M
Ceramic
R9
12kΩ
DTMF
Key in tone
T
R11
2.7kΩ
R12
R13
9.1
kΩ
9.1kΩ
+
R8
620
Ω
R5
R7
62Ω
–
C8
0.0022µF
C11
100µF
Diode
16
15
14
13
C6
0.068µF
C7
0.068µF
C5
0.068µF
12
11
10
9
5
6
7
8
+
–
AN6150
Bridge
L2
R3
SW2
C10 47µF
L1
R4
R14
820Ω
1
2
3
4
R15
C1 +
470µF
–
+
–
C2
100µF
C4
0.068µF
SW1
R
R1
C3
0.047µF
R2