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PDF ( 数据手册 , 数据表 ) TEA1062AN

零件编号 TEA1062AN
描述 LOW VOLTAGE TELEPHONE TRANSMISSION CIRCUIT WITH DIALLER INTERFACE
制造商 Unisonic Technologies
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TEA1062AN 数据手册, 描述, 功能
UNISONIC TECHNOLOGIES CO., LTD
TEA1062N/TEA1062AN
LINEAR INTEGRATED CIRCUIT
LOW VOLTAGE TELEPHONE
TRANSMISSION CIRCUIT WITH
DIALLER INTERFACE
SOP-16
DESCRIPTION
The UTC TEA1062N/TEA1062AN is a bipolar integrated circuit
performing all speech and line interface function, required in the
fully electronic telephone sets. It performs electronic switching
between dialing speech. The circuit is able to operate down to D.C.
line voltage of 1.6V (with reduced performance) to facilitate the use
of more telephone sets in parallel.
FEATURES
* Low d.c. line voltage; operates down to 1.6V
(excluding polarity guard).
* Voltage regulator with adjustment static resistance.
* Provides supply with limited current for external circuitry.
* Symmetrical high-impedance inputs (64k)
for dynamic, magnetic or piezoelectric microphones.
* Asymmetrical high-impedance inputs (32k)
for electrets microphones.
* DTMF signal input with confidence tone.
* Mute input for pulse or DTMF dialing.
* Receivering amplifier for several types of earphones.
* Large amplification setting range on microphone and earpiece
amplifiers.
* Line loss compensation facility, line current depedant
(microphone and earpiece amplifiers).
* Gain control adaptable to exchange supply.
* Possibility to adjust the d.c. line voltage
ORDERING INFORMATION
Order Number
Lead Free
Halogen Free
TEA1062NL-D16-T
TEA1062NG-D16-T
- TEA1062NG-S16-R
TEA1062ANL-D16-T
TEA1062ANG-D16-T
- TEA1062ANG-S16-R
Package
DIP-16
SOP-16
DIP-16
SOP-16
DIP-16
Packing
Tube
Tape Reel
Tube
Tape Reel
www.unisonic.com.tw
Copyright © 2015 Unisonic Technologies Co., Ltd
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TEA1062AN pdf, 数据表
TEA1062N/TEA1062AN
LINEAR INTEGRATED CIRCUIT
FUNCTIONAL DESCRIPTION
Supply: VCC, LN, SLPE, REG and STAB
Power for the UTC TEA1062N/TEA1062AN and its peripheral circuits is usually obtained from the telephone line.
The IC supply voltage is derived from the line via a dropping resistor and regulated by the UTC
TEA1062N/TEA1062AN. The supply voltage Vcc may also be used to supply external circuits e.g. dialling and
control circuits. Decoupling of the supply voltage is performed by a capacitor between Vcc and VEE while the internal
voltage regulator is decoupled by a capacitor between REG and VEE. The DC current drawn by the device will vary in
accordance with varying values of the exchange voltage (Vexch), the feeding bridge resistance (Rexch) and the DC
resistance of the telephone line (RLINE). The UTC TEA1062N/TEA1062AN has an internal current stabilizer operating
at a level determined by a 3.6kresistor connected between STAB and VEE (see Fig.8). When the line current(ILINE)
is more than 0.5mA greater than the sum of the IC supply current (Icc) and the current drawn by the peripheral
circuitry connected to VCC(lp) the excess current is shunted to VEE via LN. The regulated voltage on the line
terminal(VLN) can be calculated as:
VLN=Vref+ISLPE*R9
VLN=Vref+[( ILINE
or;
ICC
-
0.5*10-3A)IP]*R9
where: Vref is an internally generated temperature compensated reference voltage of 3.7V and R9 is an external
resistor connected between SLPE and VEE. In normal use the value of R9 would be 20. Changing the value of R9
will also affect microphone gain, DTMF gain, gain control characteristics, side tone level, maximum output swing on
LN and the DC characteristics (especially at the lower voltages). Under normal conditions, when ISLPEICC+0.5mA +
IP, the static behavior of the circuit is that of a 3.7V regulator diode with an internal resistance equal to that of R9. In
the audio frequency range the dynamic impedance is largely determined by R1. Fig.3 shows the equivalent
impedance of the circuit.
At line currents below 9mA the internal reference voltage is automatically adjusted to a lower value(typically 1.6V
at 1mA) This means that more sets can be operated in parallel with DC line voltages (excluding the polarity guard)
down to an absolute minimum voltage of 1.6V. With line currents below 9mA the circuit has limited sending and
receiving levels. The internal reference voltage can be adjusted by means of an external resistor(RVA). This resistor
when connected between LN and REG will decrease the internal reference voltage and when connected between
REG and SLPE will increase the internal reference voltage. Current(IP) available from VCC for peripheral circuits
depends on the external components used. Fig.9 shows this current for VCC > 2.2V. If MUTE of TEA1062N is LOW
(TEA1062AN is HIGH) when the receiving amplifier is driven the available current is further reduced. Current
availability can be increased by connecting the supply IC(1081) in parallel with R1, as shown in Fig.16, or, by
increasing the DC line voltage by means of an external resistor(RVA) connected between REG and SLPE.
MICROPHONE INPUTS(MIC+ AND MIC-) AND GAIN PINS (GAS1 AND GAS2)
The UTC TEA1062N/TEA1062AN has symmetrical inputs. Its input impedance is 64k(2*32k) and its voltage
gain is typically 52 dB (when R7=68k. see Fig.13). Dynamic, magnetic, piezoelectric or electret (with built-in FET
source followers) can be used. Microphone arrangements are illustrated in Fig.10. The gain of the microphone
amplifier can be adjusted between 44dB and 52dB to suit the sensitivity of the transducer in use. The gain is
proportional to the value of R7 which is connected between GAS1 and GAS2. Stability is ensured by the external
capacitors, C6 connected between GAS1 and SLPE and C8 connected between GAS1 and VEE. The value of C6 is
100pF but this may be increased to obtain a first-order low-pass filter. The value of C8 is 10 times the value of C6.
The cut-off frequency corresponds to the time constant R7*C6.
MUTE INPUT (MUTE/MUTE)
A LOW (UTC TEA1062N is HIGH) level at UTC TEA1062AN MUTE enables DTMF input and inhibited the
microphone inputs and the receiving amplifier inputs; a HIGH (UTC TEA1062N is LOW) level or an open circuit does
the reverse. Switching the mute input will cause negligible clicks at the telephone outputs and on the line. In case the
line current drops below 6mA (parallal opration of more sets) the circuit is always in speech condition independant of
the DC level applied to the MUTE/MUTE input.
DUAL-TONE MULTI-FREQUENCY INPUT (DTMF)
When the DTMF input is enabled dialling tones may be sent onto the line. The voltage gain from DTMF to LN is
typically 25.5dB(when R7=68k) and varies with R7 in the same way as the microphone gain. The signalling tones
can be heard in the earpiece at a low level (confidence tone).
UNISONIC TECHNOLOGIES CO., LTD
www.unisonic.com.tw
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