UBA1702AT/C1 Просмотр технического описания (PDF) - Philips Electronics
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UBA1702AT/C1 Datasheet PDF : 24 Pages
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Philips Semiconductors
Line interrupter driver and ringer
Product specification
UBA1702; UBA1702A
RINGER MELODY INPUT AND PIEZO DRIVER
(PINS RMI, ROA AND ROB)
The input signal at the ringer melody input (pin RMI) may
be a square wave or a sine wave which is generated by the
microcontroller. The input stage incorporates a small
hysteresis (between 0.48VDD and 0.52VDD) and is
referenced to 1⁄2VDD which is also the DC level of the signal
coming from the microcontroller. Nevertheless, when a
sine wave is used, a coupling capacitor of 10 nF
(connected between pin RMI and the output of the
microcontroller) is required. This 10 nF capacitor value is
enough since the RMI input impedance is approximately
250 kΩ.
The piezo driver is an output stage for a piezo transducer
which has to be connected between ringer output A and
ringer output B (pins ROA and ROB) as a Bridged Tied
Load (BTL) or between ROA and VSS as a Single-Ended
Load (SEL). The ROA and ROB output signals are square
wave and in opposite phase driven by the ringer melody
input stage. The minimum output current capability of the
ROA and ROB outputs is greater than 80 mA at maximum
volume setting (RV2 = 1, RV1 = 1, RV0 = 1) and becomes
even greater during output switching. This gives fast rise
and fall times resulting in a lot of harmonics.
To obtain maximum efficiency, the piezo driver stage is
supplied in series with the VDD supply.
Supply part (pins VBB and VDD)
The supply block regulates the voltage at pin VDD,
referenced to VSS, to a typical value of 3.3 V and can
deliver a minimum of 2 mA. This is sufficient to supply
most normal microcontrollers. The voltage at pin VDD must
be filtered with a 22 µF capacitor connected between
pins VDD and VSS.
In speech mode, this block is supplied from the
transmission circuit using pin VBB. The voltage drop
between VBB and VDD has been minimized (100 mV at
1 mA, providing 2.5 V < VBB < 3.0 V) in order to allow low
voltage operation of the transmission circuit.
In ringer mode, this block is supplied from the ringer part
using pin VRR and pin VBB which are tied together through
an internal diode (see Fig.1).
When an external (mains or battery) supply is connected
to VBB and no speech or ringer signal is applied, VDD
(3.3 V) is still present.
During on-hook phase, and when a small current is derived
from the line to the microcontroller supply, the circuit stays
in a kind of stand-by mode to provide sufficient voltage at
pin VDD. This is done to ensure memory retention in the
microcontroller.
REFERENCE
The bias current for the various ringer blocks is generated
by the reference block while this block is supplied from pin
VRR or VDD.
1997 Sep 29
9
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