MK53761D Ver la hoja de datos (PDF) - STMicroelectronics
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MK53761D Datasheet PDF : 11 Pages
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MK53761
Figure 2 : Keypad Configuration.
FUNCTIONAL PIN DESCRIPTION (DIP18 only)
V+
Pin 1. V+ is the positive supply for the circuit and
must meet the maximum and minimum voltage re-
quirements. (see electrical specifications).
MODE
Input. Pin 2. MODE determines the dialer’s default
operating mode. When the device is powered up or
the hookswitch inputis switched from on-hook, (V+),
to off-hook, (V–), the default determines the signal-
ing mode. A V+ connection defaults to tone mode
operation and a V– connection defaults to pulse
mode operation.
When dialing in the pulse mode, a softswitch feature
will allow a change to the tone mode whenever the
* key, or softswitch, is depressed. Subsequent * key
inputs will causethe DTMF code for an * to be dialed.
The softswitch will only switch from pulse to tone. Af-
ter returning to on-hook and back to off-hook, the
part will be in pulse mode. Redial by the LND key will
repeat the softswitch.
C1, C2, C3, C4, R4, R3, R2, R1
Keyboard inputs. The MK53761 interfaces with
either the standard 2-of-8 with negative common or
the singlecontact (Form A) keyboard.
A valid keypad entry is either a single Row con-
nected to a single Column or V– simultaneouslypre-
sented to both a single Row and Column. In its qui-
escent or standby state, during normal off-hook op-
eration, either the Rows or the Columns are at a
logic level 1 (V+). Pulling one input low enables the
on-chip oscillator. Keyboard scanning then begins.
Scanning consists of Rows and Columns alternately
switching high through on-chip pullups. After both a
Row and Column key have been detected, the de-
bounce counter is enabled and any noise (bouncing
contacts, etc.) is ignored for a debounce period
(TKD) of 32ms. At this time, the keyboard is sampled
and if both Row and Column information are valid,
the information is buffered into the LND location. If
switched on-hook (pin 17 to pin 1), the keyboard in-
puts all pull high through on-chip pullup resistors.
2/11
In the tone mode, if 2 or more keys in the same row
or if 2 or more keys in the same column are de-
pressed a single tone will be output. The tone will
corres-pond to the row or column for which the 2
keys were pushed. This feature is for test purposes,
and single tones will not be redialed.
Also in the tone mode, the outputtone is continuous
is manual dialing as long as the key is pushed. The
output tone duration follows the table 1.
Table 1 : Output Tone Duration.
Key-Push Time, T*
Tone Outpu t*
T ≤ 32ms
No Output Ignored by
MK53761
32ms ≤ T ≤ 75ms + TKD 75ms Duration Output
T ≥ 75ms + TKD
Output Duration = T – TKD
* TKD is the key pad debounce time which is typically 32 ms.
Whenredialing in the tone mode, eachDTMF output
is 75ms duration, and the tone separation (intersig-
nal delay) is 50ms.
V–
Input. Pin 6 is the negative supply input to the de-
vice. This is the voltage reference for all specifica-
tions.
OSC1, OSC2
Pin 7 (input), pin 8 (output). OSC1 and OSC2 are
connections to an on-chip inverter used as the tim-
ing reference forthe circuit. It has sufficient loopgain
to oscillate when used with a low-cost television
color-burst crystal. The nominal crystal frequency is
3.579545MHz and any deviation from this standard
is directly reflected in the Tone output frequencies.
The crystal oscillator provides the time reference for
all circuit functions. A ceramic resonator with toler-
ance of ± 0.25 % may also be used.
DTMF OUTPUT
Output. Pin 10. An NPN transistor emitter with a col-
lector tied to V+ drives the DTMF OUTPUT pin. The
transistor base is connected to an on-chip opera-
tional amplifier that mixes the Row and Column
tones. Figure 7 shows the timing at this pin.
The DTMF OUTPUT is the summation of a single
Row frequency and a single Column frequency. A
typical single tone sine wave is shown in Figure 4.
This waveform is synthesized using a resistor tree
with sinusoidally weighted taps.
The MK53761 is designed to operate from an un-
regulated supply ; the TONE LEVEL is supply inde-
pendent, and the single row tone output level will be
typically :
Toi = –12 dBm ± 1 dB
The DC componentof the DTMF output while active
is described by the following equation :
VDC1 = 0.3 V+ + 0.5 Volts
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