UTC9106 Datasheet, PDF(2/3 Page) Hangzhou Youwang Electronics Co., Ltd

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UTC9106 Datasheet, PDF (2/3 Pages) Hangzhou Youwang Electronics Co., Ltd – TONE RINGER

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UTC9106

LINEAR INTEGRATED CIRCUIT

ELECTRICAL CHARACTERISTICS( Ta=25Â°C )

(All voltage referenced to GND unless otherwise specified)

Characteristic

Symbol

Test Condition

Operating Supply Voltage

Vcc

Initiation Supply Voltage1

Vsi

See Fig.2

Initiation Supply Current1

Isi

6.8K-Pin 2 to GND

Sustaining Voltage2

Vsus

See Fig.2

Sustaining Current2

Isus

No Load Vcc=Vsus,See Fig.2

Output Voltage High

VOH

Vcc=21V, I8=-15mA

Pin6=6V, Pin7=GND

Output Voltage Low

VOL

Vcc=21V, I8=15mA

Pin6=GND, Pin7=6V

IIN(Pin3)

IIN(pin7)

Pin3=6V, Pin4=GND

Pin7=6V, Pin6=GND

High Frequency 1

High Frequency 2

Low Frequency

FH1

R3=191kâ¦, C3=6800pF

FH2

R3=191kâ¦, C3=6800pF

R2=165kâ¦, C2=0.47ÂµF

Min Typ. Max Unit

29.0 V

17 19 21

1.4 2.5 4.2 mA

9.7 11.0 12.0 V

0.7 1.4 2.5 mA

17.0 19.0 21.0 V

1.6

Ã¼

Ã¼ 500 nA

Ã¼

Ã¼ 500 nA

461 512 563 Hz

576 640 704 Hz

9.0 10 11.0 Hz

*NOTE (See electrical characteristics sheet)

1. Initiation supply voltage (Vsi) is the supply voltage required to start the tone ringer oscillating.

2. Sustaining voltage (Vsus) is the supply voltage required to maintain oscillation.

APPLICATION NOTE

The application circuit illustrates the use of the UTC9106 device in typical telephone tone ringer application.

The AC ringer signal voltage appears across the TIP and RING inputs of the circuit and is attenuated by

capacitor C1 and resistor R1.

C1 also provides isolation from DC voltage (48V) on the exchanged line.

After full wave rectification by the bridge diode, the waveform is filtered by capacitor C4 to provide a DC

supply for the tone ringer chip.

As this voltage exceeds the initiation voltage (Vsi), oscillation starts.

With the components shown , the output frequency chops between 512Hz (FH1) and 640 Hz(FH2) at a 10

Hz(FL) rate.

The loudspeaker load is coupled through a 1300â¦ to 8â¦ transformer.

The output coupling capacitor C5 is required with transformer coupled loads.

When driving a pizeo-ceramic transducer type load, the coupling C5 and transformer (1300â¦:8â¦) are not

required.

However, a current limiting resistor is required.

The low frequency oscillator oscillates at a rate (FL) controlled by an external resistor (R2) and capacitor (C2).

The frequency can be determined using the relation FL=1/1.289 R2* C2. The high frequency oscillates at a

FH1,FH2 controlled by an external resistor (R3) and capacitor (C3). The frequency can be determined using the

relation FH1=1/1.504 R3*C3 and FH2= 1/1.203 R3*C3.

Pin 2 of the UTC9106 allows connection of external resistor RSL, which is used to program the slope of the

supply current vs supply voltage characteristics (see Fig.3), and hence the supply current up to the initiation

voltage (Vsi). This initiation voltage remains constant independent of RSL.

The supply current drawn prior to triggering varies inversely with RSL, decreasing for increasing value of

resistance. Thus, increasing the value of RSL, will decrease the amount of AC ringing current required to trigger

the device. As such, longer subscriber loops are possible since less voltage is dropped per unit length of loop wire

due to the lower current level. RSL can also be used to compensated for smaller AC coupling capacitors (C5 on

Fig.4) (higher impedance) to the line which can be used to alter the ringer equivalence number of a tone ringer

circuit.

YOUW ANG ELECTRONICS CO.LTD

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