TEMIC U3762MB

U3762MB
Universal Telephone IC
* All Functions Integrated
Description
TEMIC’s low-voltage telephone circuit U3762MB
performs all the speech and line interface functions
required in an electronic telephone set, the tone ringer, the
pulse and DTMF dialing with redial. Operation below
15 mA is possible with reduced performance (no dialing).
Features
Speech Circuit
Tone Ringer
D Adjustable DC characteristic
D Symmetrical input of microphone amplifier
D Receiving amplifier for dynamic or
D 2-tone ringer
piezo-electric earpieces
D Adjustable volume
D RC oscillator
D Automatic line-loss compensation
D Anti-clipping in transmit direction
D Adjustable threshold
Dialer
Benefits
D DTMF / pulse switchable
D Pulse dialing 66/33 or 60/40 or DTMF dialing
selectable by pin
D
D
D
D
D Low number of external components
D High quality through one IC solution
Flashing time duration 98 ms
Pause function
Last number redial up to 32 digits
Standard low-cost crystal 3.57 MHz or
ceramic resonator
D Key tone
Ordering Information
Type
Package
U3762MB-MFN
SSO44
U3762MB-MFNG3
SSO44
Rev. A1, 15-Sep-98
Remarks
Taped and reeled
1 (23)
Preliminary Information
5
8
4
7
*/T 0
2
1
F
2 (23)
Preliminary Information
150 k W
1 nF
# R/P
9
6
3
HFO
HFI
RCK
TEST
MUTE
MFIND
R4
R3
R2
R1
C4
C3
C2
C1
KT
Earth
XT
5.1 V
XT
Handsfree
control
logic
Key–
board
inter–
face
Clock
generator
3.58 MHz
Clock signal
oscillator
Location
latch
RAM
Data
latch &
decoder
MODE
Read – write
counter
HKS
to key
board
matrix
1 kW
Mask
470 nF
Pulse
control
logic
Divider
Divider
Supply
ROW & column
programmable
counter
Control
logic
PRIND
VI
DP
Bandgap
reference
Tone signal
generator
Power on reset
MIC1
Mute
control
+
–
MIC2
220 nF
Comparator
with hysteresis
AGC
current
generator
MICO
220 nF
MPSA42
Supply
current
regulator
Micro–
phone
amplifier
18 k W
MFO
D/A
converter
VDD
470 m F
Transmit
amplifier
Control
function
Control
function
TIN
33 k W
HKS
Receiving
amplifier
Receiver
attenuation
Sidetone
amplifier
CL
2.2 nF
2N5401
3 kW
100 k W
2.4 k W
THA
680W
47 nF
3.3 nF
1W
39 W
10 k W
10 mF
12 k W
100 W
10 k W
VRIAC
OUT
VRING
VI
RDC
AGC
RECO2
RECO1
2.2 mF
RECIN
ST
VL
CLIM
470 W
2.2 mF
HKS
220 k W
1 mF
14912
100 mF
300 W
1.8 k W
330 W
13 V/
1W
75 V
5 MW
Ring
Tip
U3762MB
Block Diagram / Applications
Figure 1.
Rev. A1, 15-Sep-98
U3762MB
Pin Description
C1 1
44
R4
C2 2
43
R3
C3 3
42
R2
C4 4
41
R1
Earth 5
40
Mask
HFI 6
39
DP
HFO 7
38
MODE
XT 8
37
KT
XT 9
36
HKS
MFO 10
35
n.c.
MFIND 11
34
TEST
GND 12
33
VDD
MIC 1 13
32
OUT
MIC 2 14
31 RCK
MICO 15
30 VRING
VL 16
29 VRIAC
U3762MB
28
RDC 17
AGC
27 THA
TIN 18
26 ST
VI 19
MUTE 20
25
CLIM
PRIND 21
24
RECO 1
23
RECO 2
RECIN 22
14835
SSO44
Rev. A1, 15-Sep-98
3 (23)
Preliminary Information
U3762MB
Pin
Symbol
1
C1
Function
Configuration
VDD
Keyboard input
C1
2
Ê
Ê Ê
Ê
ÊÊ
Ê
Ê
C2
VDD
PD
3
VDD
C3
C2–C4
4
C4
VDD
PD = Protection Device
5
Earth
VDD
Earth key ( 604 ms high pulse, 1 s pause)
EARTH
HFI
ÊÊ
Input with 200 kW pull-down resistor.
HFI triggers HFO with each LH edge.
Ê
ÊÊ
HFI
VDD
200K
6
PD
VDD
PD
7
8
9
HFO
XT
XT
Output will be toggled by each LH edge at
HFI.
A built-in inverter provides oscillation with an
inexpensive 3.579545-MHz crystal or ceramic
resonator
VDD
HFO
XT
Ê
PD
VDD
Ê
VDD
XT
Ê
PD
VDD
Ê
VDD
PD
10
MFO
Output of DTMF
DTMF output frequency
Specified Actual
(Hz)
(Hz)
697
699
R1
770
766
R2
852
848
R3
941
940
R4
C1
1209
1216
1336
1332
C2
1477
1472
C3
Error
(%)
+0.28
–0.52
–0.47
–0.10
+0.57
–0.30
–0.34
Ê
Ê Ê
VDD
MFO
4 (23)
VDD
PD
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Pin
Symbol
11
MFIND
Function
Configuration
Ê
Output switches to low being in temporary
DTMF mode. Reset by on hook condition.
MFIND
VDD
MFIND
PD
12
GND
Ground
13
MIC 1
Inverting input of microphone amplifier
Ê
VI
14
MIC 2
Non-inverting input of microphone amplifier
1V
50K
PD
MIC1
Ê
Ê
Ê
Ê Ê
MIC2
50K
1V
VI
PD
15
MICO
VI
Transmit pre-amp output which is normally
capacitively coupled to Pin TIN
1V
16K
MICO
PD
16
VL
Positive supply voltage input to the device.
The current through this pin is modulated by
the transmit signal.
VL
PD
16V
RDC
Ê
PD
17
18
RDC
TIN
An external resistor (1 W) is required from
this pin to GND to control the DC input impedance of the circuit. It has a nominal value
of 39 W for low-voltage operation. Values up
to 100 W may be used to increase the available
transmit output voltage swing at the expense
of low-voltage operation.
VL
AGC
PD
RDC
PD
ÊÊ
ÊÊ
1V
Input to the line output driver amplifier.
Transmit AGC applied to this stage.
5.6K
TIN
16V
PD
Rev. A1, 15-Sep-98
5 (23)
Preliminary Information
U3762MB
Pin
Symbol
19
VI
20
MUTE
Function
Configuration
This internal voltage bias line must be connected to VL via an external resistor which
dominates the AC input impedance of the circuit and should be 680 Ω for an 600-W input
impedance or 1.2 kΩ for a 900-Ω input impedance.
Ê
VI
16V
PD
Pin for testing
Ê
VBG
30K
MUTE
MUTE
PD
21
22
PRIND
RECIN
23
RECO2
24
RECO1
PRIVACY indication pin
Open collector with minimum 1 mA drive
current to GND when PRIVACY = active
Receive amplifier input. The receiving amplification is regulated by an AGC.
Output of the receive amplifier. Dynamic
transducers with a minimum impedance of
100 W can be directly driven by these outputs.
6.7V
VL
PRIND
ÊÊ
Ê Ê
Ê
6.7V
PD
60K
RECIN
VL
60K
RECO2
RECO1
1V
6.7V
PD
25
CLIM
w
Time constant of anticlipping in transmit path.
CLIM 2.2 mF
CLIM = GND: anticlipping inactive
VL
CLIM
6V
Ê
IDC
PD
26
27
ST
THA
The output of the sidetone cancellation signal,
which requires a balanced impedance of 8 to
10 times the subscribers line impedance to be
connected to Pin VL.
Ê
ST
16V
PD
Ê
Ê
VRIAC
Ringer threshold adjustment
140K
12K
THA
20K
6V
6V
PD
28
AGC
The range of transmit and receive gain variations between short and long loops may be
adjusted by connecting a resistor RAGC from
this pin to (GND). This pin can be left open to
set AGC out of action.
Ê
Ê
Ê
1V
VL
AGC
PD
RDC
29
VRIAC
PD
Ringing supply
70K
VRIAC
50V
PD
6 (23)
10K
Ê
ÊÊ
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Pin
Symbol
30
VRING
Function
DC supply voltage for the tone ringer is limited to 30 V with integrated Z-diode.
Configuration
VRING
30V
OUT
50V
PD
31
RCK
200
6.5K
PD
ÊÊÊÊ
Ê
3.4V
RC clock oscillator for ringer
0.8V
RCK
6V
6V
PD
32
OUT
Buzzer output
VRING
PD
OUT
200
30V
6.5K
Ê
Ê
Ê ÊÊ
Ê
Ê
50V
PD
33
VDD
VL
Supply output for dialer part
VDD
6V
6V
TEST
PD
TEST input with 6.25 kW pull-up resistor
VDD
VDD
200K
34
TEST
VDD
PD
n.c.
Not connected
36
HKS
Hook switch input.
HKS = 0: On-hook state. Chip in sleep mode,
no operation (with a pull-down resistor of
about 400 kW).
HKS = 1: Off-hook state. Chip enable for
normal operation.
37
KT
Ê
VDD
HKS
Keytone output only sent out in pulse mode
KT
Ê
Ê
VDD
400k
35
PD
VDD
Ê
VDD
PD
Rev. A1, 15-Sep-98
7 (23)
Preliminary Information
U3762MB
Pin
Symbol
38
MODE
39
40
DP
Mask
Function
Pulling MODE pin to:
C3
tone mode with 87 ms burst time
and 140 ms pause
C4
tone mode with 87 ms DTMF burst
and 87 ms pause
R1
pulse mode with 20 pps,
Make/Break = 40/60
R2
pulse mode with 20 pps,
Make/Break = 33/66
R3
pulse mode with 10 pps,
Make/Break = 40/60
R4
pulse mode with 10 pps,
Make/Break = 33/66
C1
pulse mode with 10 pps,
Make/Break = 33/66 and temp. DTMF
with 87 ms DTMF burst, 140 ms pause
MODE pin pulled to R4: with temporary
DTMF, 87 ms DTMF burst and 87 ms pause
Pulse dialing output. Flash key will cause DP
to be active in either DTMF mode or pulse
mode. In On-hook state is DP = VDD.
Configuration
Ê
VDD
MODE
Ê
VDD
PD
Ê
Ê
DP
VDD
Ê
Short mute during pulse dialing, active high
PD
VDD
MASK
41
R1
Keyboard input
R1
42
43
Ê
PD
VDD
Ê
Ê Ê
VDD
R2
PD
VDD
R3
R2–R4
VDD
44
R4
PD
8 (23)
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
ÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
: ÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
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ÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
Keyboard Operation
C1
1
4
7
/T
C2
2
5
8
0
C3
3
6
9
#
D R/P: Redial and pause function key
D :/T: : function;
C4
R1
R2
R3
R4
F
R/P
D
D
F: Flash key
: hand set, MIC mute
pulse-to-tone function
Normal Dialing
ÁÁÁÁÁÁÁ
ÁÁÁÁÁ
Á
ÁÁÁ
ÁÁ
Á
ÁÁÁ
ÁÁ
Á
ÁÁ
Á
ÁÁÁ
ÁÁ
Á
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ÁÁ
Á
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Á
Á
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ÁÁ
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Á
Á
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
Á
OFF HOOK
1.
2.
3.
,
D1
,
D2
, ...,
Dn
D1, D2, ..., Dn will be dialed out.
Dialing length is unlimited, but redial is inhibited if length oversteps 32 digits.
If redialing length oversteps 32 digits, the redialing function will be inhibited.
Redialing
ÁÁÁÁÁÁ
ÁÁÁÁ
Á
ÁÁ
Á
ÁÁÁ
ÁÁ
Á
ÁÁ
Á
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Á
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Á
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Á
ÁÁÁÁÁÁ
ÁÁÁÁÁ
Á
ÁÁÁÁÁ
ÁÁÁÁ
Á
ÁÁ
Á
ÁÁÁÁÁÁ
ÁÁÁÁÁ
Á
ÁÁ
Á
ÁÁÁ
ÁÁ
Á
Á ÁÁ
ÁÁÁÁÁ
ÁÁÁ
ÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁ
ÁÁÁ
Á
Á ÁÁ
ÁÁÁÁÁ
ÁÁÁ
ÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁ
ÁÁÁ
Á
OFF HOOK
,
D1
,
D2
, ...,
Dn
BUSY, Come
ON HOOK
,
OFF HOOK
,
R/P
The R/P key can execute the redial function only as the first key-in after off-hook;
otherwise, it executes the pause function (3.6 s).
Keys stored in redial memory: 0 to 9, *, #, R/P, F
Rev. A1, 15-Sep-98
9 (23)
Preliminary Information
U3762MB
HKS
tKRD
KEY IN
3
4
2
2
tKID
tKID
DP
BM
tIDP
BM
tIDP
tPDP
tIDP
tPDP
tIDP
MUTE
MASK
Low
MFO
Oscillation
OSC
15019
Figure 2. Pulse mode normal dialing
HKS
tKRD
KEY IN
t<tOHD
R/P
tKID
DP
BM
tPDP
tIDP
BM
tIDP
tIDP
MUTE
MASK
MFO
OSC
Low
Oscillation
15020
Figure 3. Pulse mode auto dialing
10 (23)
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
HKS
t > tOHD
tKRD
KEY IN
R/P
tKID
DP
BM
tIDP
tPDP
BM
tIDP
MUTE
MASK
Low
MFO
Oscillation
OSC
15021
Figure 4. Pulse mode auto dialing
HKS
tKRD
KEY IN
3
4
2
5
tKID
DTMF
tTD
tITP
tITP
tITP
MUTE
MASK
DP
OSC
Low
High
Oscillation
15022
Figure 5. DTMF mode normal dialing
Rev. A1, 15-Sep-98
11 (23)
Preliminary Information
U3762MB
HKS
tKRD
KEY IN
t<tOHD
R/P
tKID
DTMF
tTD
tITP
tITP
MUTE
Low
MASK
High
DP
Oscillation
OSC
15023
tt
Figure 6. DTMF mode auto dialing (t
OHD)
HKS
tKRD
KEY IN
t > t OHD
R/P
tKID
DTMF
tTD
tITP
MUTE
MASK
DP
OSC
Low
High
Oscillation
15024
ut
Figure 7. DTMF mode auto dialing (t
OHD)
12 (23)
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Access Pause
ÁÁÁÁÁÁÁ
ÁÁÁÁÁ
Á
ÁÁ
Á
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ÁÁ
Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
Á
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Á
Á
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ÁÁ
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ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
Á
OFF HOOK
,
D1
,
D2
,
R/P
,
D3
, ...,
1.
The pause function can be stored in the memory.
2.
The pause function is executed in normal dialing and redialing.
Dn’
HKS
KEY IN
tKID
2
R/P
3
tIDP
DP
tPDP
tPDP
MUTE
tP
MASK
MFO
OSC
Low
Oscillation
15025
Figure 8. Pause function
Rev. A1, 15-Sep-98
13 (23)
Preliminary Information
U3762MB
:
Pulse-to-Tone ( /T)
ÁÁ
Á
ÁÁÁÁÁÁ
ÁÁÁÁÁ
Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
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Á
ÁÁÁ
ÁÁ
Á
ÁÁÁÁ
ÁÁÁ
Á
:
ÁÁ
ÁÁÁÁÁÁ
ÁÁ
ÁÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
Á ÁÁÁÁ
ÁÁÁ
Á
ÁÁ
ÁÁÁÁÁÁ
ÁÁ
ÁÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁ
ÁÁÁ
Á ÁÁÁÁ
ÁÁÁ
Á
OFF HOOK
1. a)
,
D1
,
D2
, ...,
Dn
,
/T
,
D1’
,
D2’
, ...,
Dn’
If the mode switch is set to pulse mode, then the output signal will be:
D1, D2, ..., Dn, Pause (3.6 s), D1’, D2’ ,..., Dn’
(Pulse)
1. b)
2.
(Pulse),
(Tone)
(Tone),
if MODE pin = C2, * is sent out as DTMF tone
If the mode switch is set to tone mode, then the output signal will be:
D1, D2, ..., Dn,
(Tone)
3.
(Tone)
*
, D1’, D2’, ..., Dn’
(Tone)
(Tone)
The dialer remains in tone mode when the digits have been dialed out and can be reset to pulse mode
by going on-hook only.
HKS
KEY IN
tKID
2
*/T
3
DP
tPDP
tIDP
MUTE
tP
MASK
MFO
OSC
Oscillation
MFIND
15026
Figure 9. Pulse-to-tone operation
14 (23)
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Flash (F)
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
Á
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
Á
Á
ÁÁ
ÁÁÁÁ
ÁÁ
Á
ÁÁÁÁÁÁ
ÁÁÁ
OFF HOOK
,
Fn
1.
The dialer will execute flash break and the entire flash pause time will elapse before the next digits are dialed out.
2.
The flash key can be stored as a digit in the memory. Only one flash, however, will be released to the users.
3.
The system will return to the initial state after the flash pause time has elapsed.
High
HKS
KEY IN
F
F
tKID
3
tFB
DP
tFP
tFP
MUTE
MASK
MFO
tITP
Oscillation
OSC
15027
Figure 10. Flash operation
tKID
tKRD
tPDP
tIDP
tTD
= key active in debounce
= key release debounce
= pre-digit pause
= inter-digit pause
= DTMF output duration
tITP
tFB
tFP
tP
= intertone pause
= flash break time
= flash pause time
= pause time
KEY IN
DP
MUTE
MASK
Low
EARTH
15028
Figure 11. Symbolic timing diagram: Earth function
Rev. A1, 15-Sep-98
15 (23)
Preliminary Information
U3762MB
Off hook
HKS
HFI
HFO
PD
14909
Figure 12. Symbolic timing diagram: HFI, HFO function
Off hook
On hook
HKS
DP
165 ms
15029
Figure 13. Symbolic timing diagram: on hook debounce time
Absolute Maximum Ratings
Parameters
Line current
DC line voltage
Junction temperature
Ambient temperature
Storage temperature
Total power dissipation, Tamb = 60°C
Junction ambient
SSO44
SSO44
Symbol
IL
VL
Tj
Tamb
Tstg
Ptot
RthJA
Value
140
14
125
– 25 to + 75
– 55 to + 150
0.9
70
Unit
mA
V
°C
°C
°C
W
K/W
ESD withstand voltage 1 kV according to MIL standard 883d method 3015.7 (HBM)
16 (23)
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Electrical Characteristics Speech Circuit
Reference point Pin GND, f = 1000 Hz, 0 dBm = 775 mVrms, RDC = 39 Ω / 1 W, Tamb = 25°C, unless otherwise specified,
refer to “Basic Test Circuit”.
Parameters
Line voltage
Transmit and sidetone
Input resistance
Gain
Gain change with current
Gain deviation
Line-loss compensation
Max. output voltage at line
Noise at line weighted
psophometrically
Sidetone reduction
DTMF amplifier
Volume range d < 5%
DTMF output level low
frequency group
Pre-emphasis between
high- and low-level
frequency group
Receiving amplifier
Gain
Gain change with current
Gain deviation
Line-loss compensation
Receiving noise at
earphone weighted
psophometrially
Gain change when muted
Output voltage push-pull
Test Conditions / Pin
IL = 8 mA
IL = 20 mA
IL = 73 mA
IL = 100 mA
Ri
IL = 20 mA, S5 = open
IL = 20 to 60 mA
RAGC = infinite
Tamb = –10 to +60°C
IL = 20 mA
RAGC = 12 kW, IL = 73 mA
IL = 20 mA, Vmic = 10 mV,
CLIM = 2.2 mF, S1 = open
IL > 20 mA, GS = 48dB
y 20 mA
IL
w
Single tone, IL 20 mA
IL = 20 mA, S5 = closed
PPRE = PHLG – PLLG,
S5 = closed
w
IL 20 mA
IL = 20 to 60 mA
RAGC = infinite
Tamb = –10 to +60°C
IL = 20 mA
IL = 73 mA
IL = 73 mA
y
y
IL 20 mA
IL 20 mA, Zear = 68 nF,
100 W in series, d ≤ 2%
Ear protection differential
IL = 40 mA, Vgen = 4 Vrms,
Zear = 68 nF + 100 W
Supply voltage (for internal use only)
Output voltage *
IL 20 mA dialing mode
Available current for
IL 20 mA dialing mode
peripherals
Distortion at line
IL = 20 mA, S5 = open
VL = 0.775 Vrms
Maximum output voltage
IL = 20 mA,
swing at line
VMIC = 50 mVrms
Mute suppression transmit
IL = 20 mA
with privacy function
y
y
*
Symbol
VL
Min.
3.6
5.9
6.9
Ri
Gs
DGS
45
46.8
–0.5
DGS
–0.5
DGs
– 4.8
VLmax
Typ.
1.4
3.85
6.55
Max.
4.1
7.2
8.2
Unit
V
V
V
V
80
47.8
120
48.8
0.5
kΩ
dB
dB
0.5
dB
–7
dB
dBm
– 72
dBmp
20
dB
–6
1.2
no
GSTA
10
VL
VL
1.3
–8
–4
dBm
dBm
PPRE
1
3
dB
DGR
GR
3
–0.5
5
0.5
dB
dB
DGR
–0.3
0.7
dB
DGR
– 4.7
–6
– 77.5
–7
– 71
dB
dBm
GRM
VRECO
24
0.8
29
0.9
34
dB
Vrms
Vear
1.3
1.6
2.5
Vrms
VDD
IDD
2.0
150
ni
15
6.3
dt
VL max
GSPRIV
3.4
60
V
mA
2
%
4
Vpp
dB
Output must be limited externally to max. 5.5 V
Rev. A1, 15-Sep-98
17 (23)
Preliminary Information
U3762MB
DC Characteristics Dialer
VDD = 2.7 V, fOSC = 3.58 MHz, all outputs unloaded, S9 closed; HKS = 0
Parameters
Memory rentention current
Pre-emphasis
DTMF distortion
DP output sink current
Keyboard input drive
current
Keyboard input sink current
Key on resistance
all other keys
Key off resistance
Mask sink / drive current
Earth sink / drive current
Test Conditions / Pins
HKS = 1, VDD = 1.0 V
Column/Row
RL = 5 kW
VPO = 0.5 V
VI = 0 V
VI = 2.7 V
Symbol
IMR
d
IPL
IKD
Min.
Typ.
1
2
– 30
Max.
0.1
3
– 23
0.5
20
IKS
RKON
500
RKOFF
IM H/L
Ie H/L
100
5
Unit
mA
dB
dB
mA
mA
mA
kW
kW
mA
mA
0.5
0.5
AC Characteristics Dialer
Parameters
Keypad active in
debounce mode
Key release debounce
Pre-digit pause
Inter-digit pause
( auto dialing )
Make/break ratio
DTMF output duration
Inter-tone pause
Flash break time, F
Flash pause time
Pause time
On-hook debounce
time
Test Conditions / Pins
MODE pin = R3 (10 pps)
MODE pin = C1, C2, C4 (10 pps)
MODE pin = R1 (20 pps)
MODE pin = R2
10 pps, tIP = tIDP + tPDP
20 pps
MODE pin = R1 (20 pps), R3
(10 pps)
MODE pin = C1, C2, R4 (10 pps)
R2 (20 pps)
Auto dialing, MODE = C4
MODE = C3
Auto dialing, MODE = C4
MODE = C3
C4 connected to R3
F
Symbol
tKID
Min.
15
Typ.
20
Max.
25
Unit
ms
tKRD
tPDP
tPDP
tPDP
tPDP
tIP
tIP
M/B
15
37
31
25
41
33.5
40.8:60.2
20
40
33.3
20
16.65
836
512
40:60
39.2:60.8
ms
ms
ms
ms
ms
ms
ms
%
35.6:64.4
33:67
31.2:68.8
%
84
84
84
135
95
0.9
3.5
87
87
87
140
98
1
3.6
220
90
90
90
147
101
1.1
3.7
ms
ms
ms
ms
ms
s
s
ms
tTD
tITP
tFB
tFP
tP
tohd
810
18 (23)
860
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Parameters
Break duration
Make duration
Break + make duration
Test Conditions / Pins
MODE pin = R3
MODE pin = C1, C2, R4
MODE pin = R1 (20 pps)
MODE pin = R2
MODE pin = R3
MODE pin = C1, C2, R4
MODE pin = R1 (20 pps)
MODE pin = R2
MODE pin = C1, C2, R3, R4
MODE pin = R1, R2 (20 pps)
Symbol
Min.
Typ.
Max.
Unit
tB
57.6
63
60
66.7
30
33.35
40
33.3
20
16.65
100
50
62.4
69
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
tB
tM
38
31
tM
tP
tP
95
41
35
105
Electrical Characteristics Tone Ringer
fRCK = 4 kHz, VRING = 20 V, Tamb = 25_C, reference point GND, unless otherwise specified
Parameters
Supply current,
outputs open
Switch-on threshold
Switch-off threshold
Ringing frequency
Audio sequence frequency
Output voltage swing
Turn-off delay
Test Conditions / Pins
VRIAC = 20 V
Symbol
IRING
Min.
2.1
Typ.
Max.
3.8
Unit
mA
VRIAC, THA = open
VRIAC
R = 150 kΩ, C = 1 nF
VRIAC > VRON
VRON
VROFF
8
5.0
9
5.6
10
6.5
V
V
f1H
f1L
f2
Vout
toff
937
752
11.5
21
1010
808
12.5
23
65
1083
868
14.0
Hz
Hz
Hz
Vpp
ms
VRing = 25 V, Cout = 68 nF
See figure 11
100
12459
Volt
VRING
0
t
VRIAC
0
t
OUT
Melody
t
0
toff
Figure 14. Turn-off delay time
Rev. A1, 15-Sep-98
19 (23)
Preliminary Information
20 (23)
Preliminary Information
1n
150k
2.2 m F
S1
3.58 MHz
CLOCK
IN
To tester
To tester
To tester
IN
IN
OUT
OUT
OUT
I/O
OUT
IN
IN
IN
IN
IN
IN
IN
IN
S6
MIC2
U3762MB
MIC1
25k
MFO
MICO
S5
TIN
220n
VL
VRING
VRIAC
RCK
OUT
THA
TEST
HFI
HFO
GND
PRIND
RDC
AGC
RECO2
RECO1
C1
C2
C3
C4
R1
R2
R3
R4
MUTE
MASK
MFIND
EARTH
CLIM
VI
RECIN
VDD
25k
8.2k
XT
b
a
100n
ST
S9
VDD
220 m
VMIC
XT
HKS
IN
S11
KT DP
MODE
I/O
I/O
OUT
To tester
I/O
To tester
S8
1m
68n
39
12k
VRECO
4.7k
VGEN
100 mV
330
2.2 m
47n
2.2n
1.5k
600
100 m
CL
S7
VRIAC
a b
VRING
OUT
VL
To tester
100 m
620
13V
IL
VGEN
300 mV / 1 kHz
U3762MB
Basic Test Circuit
14836
Figure 15. Basic test circuit
Rev. A1, 15-Sep-98
U3762MB
Equations for Electrical Characteristic Parameters of the Speech Circuit
The equations refer to the basic test circuit. If not otherwise specified, the switches in the basic test circuit are inactive.
Transmit gain
GS
+ 20
log
ǒ Ǔ
VL
V MIC
VMIC = 3 mV/1 kHz, S5 = open
Receiving gain
GR
+ 20
log
ǒ Ǔ
V RECO
VL
RX-mode: Vgen = 300 mV/1 kHz, S7b
Line-loss compensation transmit
DGS GS(at IL 73 mA)–GS(at I L
+
+
+ 20 mA)
TX-mode: VMIC = 3 mV/1 kHz, S5 = open
ǒ Ǔ
Sidetone reduction
GSTA
+ 20
log
VL
(in TX–mode)
V RECO
) GR
TX-mode: VMIC = 3 mV/1 kHz, S5 = open
Line-loss compensation receive
DGR GR(at I L 73 mA)–GR(at I L
+
+
+ 20 mA)
RX-mode: Vgen = 300 mV/1 kHz, S7b
Gain change when muted
GRM
+ 20
log
V RECO
(Mute
VL
+ inactive)–20
log
V RECO
(Mute
VL
+ active)
Vgen = 100 mV/1 kHz, S5 = open, S8 = open
ǒ
Ǔ
Input impedance of microphone amplifier
50 k
Ri
V L (S6 + closed)
–1
V L(S6 + open)
+
TX-mode: VMIC = 3 mV/1 kHz, S5 = open
Rev. A1, 15-Sep-98
21 (23)
Preliminary Information
U3762MB
Packaging Information
Package SSO44
Dimensions in mm
9.15
8.65
18.05
17.80
7.50
7.30
2.35
0.3
0.25
0.10
0.8
0.25
10.50
10.20
16.8
44
23
technical drawings
according to DIN
specifications
13040
1
22
22 (23)
Rev. A1, 15-Sep-98
Preliminary Information
U3762MB
Ozone Depleting Substances Policy Statement
It is the policy of TEMIC Semiconductor GmbH to
1. Meet all present and future national and international statutory requirements.
2. Regularly and continuously improve the performance of our products, processes, distribution and operating systems
with respect to their impact on the health and safety of our employees and the public, as well as their impact on
the environment.
It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as
ozone depleting substances ( ODSs).
The Montreal Protocol ( 1987) and its London Amendments ( 1990) intend to severely restrict the use of ODSs and
forbid their use within the next ten years. Various national and international initiatives are pressing for an earlier ban
on these substances.
TEMIC Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of
ODSs listed in the following documents.
1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively
2 . Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental
Protection Agency ( EPA) in the USA
3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C ( transitional substances ) respectively.
TEMIC Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting
substances and do not contain such substances.
We reserve the right to make changes to improve technical design and may do so without further notice.
Parameters can vary in different applications. All operating parameters must be validated for each customer
application by the customer. Should the buyer use TEMIC products for any unintended or unauthorized
application, the buyer shall indemnify TEMIC against all claims, costs, damages, and expenses, arising out of,
directly or indirectly, any claim of personal damage, injury or death associated with such unintended or
unauthorized use.
TEMIC Semiconductors GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany
Telephone: 49 ( 0 ) 7131 67 2594, Fax number: 49 ( 0 ) 7131 67 2423
Rev. A1, 15-Sep-98
23 (23)
Preliminary Information