NW6006-XS Integrated Device Technology, NW6006-XS Datasheet - Page 6

NW6006-XS

Manufacturer Part Number

NW6006-XS

Description

ENHANCED TYPE II CALLER ID DECODER WITH STUTTER DIAL TONE DETECTOR

Manufacturer

Integrated Device Technology

Datasheet

1.NW6006-XS.pdf (22 pages)

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DUAL TONE ALERT SIGNAL DETECTION

Bellcore system and ETSI system, but in BT system it is used in both

on and off-hook signalling. The low and high tone frequencies of three

different systems are as follows:

pin DR/STD is STD. STD goes low when DT-AS has been detected

and return high after DT-AS has ended.

separated into high band and low band by two bandpass filters. The

tone detection algorithm examines the filter outputs to validate the

arrival of the DT-AS. The EST pin becomes active when both tones

are detected. The EST is only the preliminary indication, it must be

qualified by the “guard time” as required by Bellcore, BT and ETSI (a

minimum duration for valid signals). STD is the guard time qualified

DT-AS detection output, it indicates the correct detection.

NW6006 ENHANCED TYPE II CALLER ID DECODER

WITH STUTTER DIAL TONE DETECTOR

The Dual Tone Alert Signal is used only in off-hook signalling in

Frequency

High Tone

Frequency

When the device selects DT-AS detection, the bi-purpose output

The incoming Alert Signal goes through anti-alias filter and then is

Low Tone

Figure 5. Guard Time Circuit of Dual Tone Alert Signal

Dual tone detected

2130 Hz ± 1.1% (on-hook)

2130 Hz ± 0.6% (off-hook)

2750 Hz ± 1.1% (on-hook)

2750 Hz ± 0.6% (off-hook)

NW6006

Comparator

Detection

TGT

VCC

Bellcore & ETSI

2130 Hz ± 0.5%

2750 Hz ± 0.5%

EST

STD

ST/GT

VCC

shows the waveform of the EST, ST/GT and STD pins. The total

recognition time is t

time and t

= t

absent guard time. The guard time is the RC time constant for the

capacitor charge to VCC or discharge to GND. To get the unequal

present and absent guard time, a diode can be connected as shown

in Fig. 7 to provide different RC time constant (varying resistance

value) during charging and discharging.

Fig. 5 shows the operation of the guard time circuit and Fig. 6

+ t

DT-AS

ST/GT

Switch

Figure 7. Guard Time Circuits with Unequal Present and

STD

EST

ST/GT

, where t

VCC

EST

is the tone present guard time. The total absent time is t

Figure 6. Guard Time Waveform

REC

is the tone absent detection time and t

= t

REC

+ t

INDUSTRIAL TEMPERATURE RANGE

Absent Times

TGT

, where t

Alerting Signal

Vd=diode forward voltage

(VCC-V

Vd=diode forward voltage

GP <

TGT

=R1R2/(R1+R2)

=R1CIn(VCC/(VCC-V

=R1CIn(VCC/V

> t

-Vd(R

is the tone present detection

CIn((VCC-Vd(R

TGT

-Vd(R

/R2)))

TGT

ABS

/R2)))

TGT

)

/R2))/

TGT

/R2))/

is the tone

))

ABS

NW6006-XS Integrated Device Technology, NW6006-XS Datasheet - Page 6

NW6006-XS

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