CD22204E View Datasheet(PDF) - Intersil

Part Name

Description

Manufacturer

CD22204E

5V Low Power Subscriber DTMF Receiver

Intersil 

CD22204

3.579545MHz

XIN

10

ATB

11

1M

XOUT

VDD

9

CD22204

6

XEN

XIN CONNECTED TO VDD

10

11

CD22204

XEN

6

UP TO 10 DEVICES

FIGURE 2. CRYSTAL OSCILLATOR

Outputs D1, D2, D4, D8 and EN

Outputs D1, D2, D4, D8 are CMOS push-pull when enabled

(EN high) and open circuited (high impedance) when

disabled by pulling EN low. These digital outputs provide the

hexadecimal code corresponding to the detected digit. The

digital outputs become valid after a tone pair has been

detected and they are then cleared when a valid pause is

timed. The table below describes the hexadecimal codes.

TABLE 1. OUTPUT CODES

DIGIT

D8

D4

D2

D1

1

0

0

0

1

2

0

0

1

0

3

0

0

1

1

4

0

1

0

0

5

0

1

0

1

6

0

1

1

0

7

0

1

1

1

8

1

0

0

0

9

1

0

0

1

0

1

0

1

0

*

1

0

1

1

#

1

1

0

0

A

1

1

0

1

B

1

1

1

0

C

1

1

1

1

D

0

0

0

0

DV

DV signals a detection by going high after a valid tone pair is

sensed and decoded at the output pins D1, D2, D4, and D8.

DV remains high until a valid pause occurs.

N/C Pin

This pin has no internal connection and should be left floating.

DTMF Dialing Matrix

COL 0

1209Hz

COL 1

1336Hz

COL 2

1477Hz

COL 3

1633Hz

ROW 0

697Hz

1

2

3

A

ROW 1

770Hz

4

5

6

B

ROW 2

852Hz

7

8

9

C

ROW 3

941Hz

*

0

#

D

NOTE: Column 3 is for special applications and is not normally used

in telephone dialing.

Digital Inputs and Outputs

All digital inputs and outputs of the DTMF receivers are

represented by the schematic below. Only the “analog in” pin

is different, and is described above. Care must be exercised

not to exceed the voltage or current ratings on these pins as

listed in the “maximum ratings” section.

VDD

DIGITAL

INPUT

CMOS

DIGITAL

CIRCUITRY

DIGITAL

OUTPUT

VSS

FIGURE 3. DIGITAL INPUTS AND OUTPUTS

Input Filter

The CD22204 will tolerate total input noise of a maximum of

12dB below the lowest amplitude tone. For most telephone

applications, the combination of the high frequency

attenuation of the telephone line and internal band limiting

make special circuitry at the input to these receivers

unnecessary. However, noise near the 56kHz internal

sampling frequency will be aliased (folded back) into the

audio spectrum, so if excessive noise is present above

28kHz, the simple RC filter shown below may be used to

band limit the incoming signal. The cut off frequency is

3.9kHz.

NOISY

SIGNAL

270kΩ

0.0015µF

ANALOG

IN

33kΩ

CD22204

FIGURE 4. FILTER FOR USE IN EXTREME HIGH

FREQUENCY INPUT NOISE ENVIRONMENT

4

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