ETC5067D-X Ver la hoja de datos (PDF) - STMicroelectronics
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ETC5067D-X Datasheet PDF : 18 Pages
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ETC5064 - ETC5064-X - ETC5067 - ETC5067-X
pulses are being used. For 64 kHz operation, the RECEIVE SECTION
frame sync pulses must be kept low for a minimum
of 160 ns (see Fig 1). The DX TRI-STATE output
buffer is enabled with the rising edge of FSX or the
rising edge of BCLKX, whichever comes later, and
the first bit clocked out is the sign bit. The following
seven BCLKX rising edges clock out the remaining
seven bits. The DX output is disabled by the falling
BCLKX edge following the eighth rising edge, or by
FSX going low, whichever comes later. A rising edge
on the receive frame sync pulse, FSR, will cause the
PCM data at DR to be latched in on the next eight
falling edges of BCLKR (BCLKx in synchronous
mode). Both devices may utilize the long frame sync
pulse in synchronous or asynchronous mode.
The receive section consist of an expanding DAC
which drives a fifth order switched-capacitor low
pass filter clocked at 256kHz. The decoder is A-law
(ETC5067 and ETC5067-X) or µ–law (ETC5064
and ETC5064-X) and the 5 th order low pass filter
corrects for the sin x/x attenuation due to the 8kHz
sample and hold. The filter is then followed by a 2
nd order RC active post-filter and power amplifier
capable of driving a 600Ω load to a level of 7.2dBm.
The receive section is unity-gain. Upon the oc-
curence of FSR, the data at the DR input is clocked
in on the falling edge of the next eight BCLKR
(BCKLX) periods. At the end of the decoder time slot,
the decoding cycle begins, and 10µs later the de-
TRANSMIT SECTION
coder DAC output is updated. The total decoder de-
The transmit section input is an operational amplifier
) with provision for gain adjustment using two external
t(s resistors, see figure 4. The low noise and wide band-
width allow gains in excess of 20 dB across the
c audio passband to be realized. The op amp drives
du a unity gain filter consisting of RC active pre-filter,
ro followed by an eighth order switched-capacitor
bandpass filter directly drives the encoder sample-
P and-hold circuit. The A/D is of companding type ac-
te cording to A-law (ETC5067 and ETC5067-X) or µ-
le law (ETC5064 and ETC5064-X) coding conven-
tions. A precision voltage reference is trimmed in
so manufacturing to provide an input over load (tMAX)
b of nominally 2.5V peak (see table of Transmission
O Characteristics). The FSX frame sync pulse controls
- the sampling of the filer output, and then the succes-
) sive-approximation encoding cycle begins. The 8-bit
t(s code is then loaded into a buffer and shifted out
through DX at the next FSX pulse. the total encoding
uc delay will be approximately 165 µs (due to the trans-
d mit filter) plus 125µs (due to encoding delay), which
ro totals 290µs. Any offset voltage due to the filters or
comparator is cancelled by sign bit integration.
te P ABSOLUTE MAXIMUM RATINGS
le Symbol
soVCC
ObVBB
VCC to GNDA
VBB to GNDA
Parameter
lay is about10µs (decoder up-date) plus 110µs (fil-
ter delay) plus 62.5µs (1/2 frame), which gives ap-
proximately 180µs.
RECEIVE POWER AMPLIFIERS
Two inverting mode power amplifiers are provided
for directly driving a matched line interface trans-
former. The gain of the first power amplifier can be
adjusted to boost the ± 2.5V peak output signal from
the receive filter up ± 3.3V peak into an unbalanced
300Ω load, or ±4.0V into an unbalanced 15kΩ load.
The second power amplifier is internally connected
in unity-gain inverting mode to give 6dB of signal
gain for balanced loads. Maximum power transfer to
a 600Ω subscriber line termination is obtained by
differientially driving a balanced transformer with a
√2 : 1 turns ratio, as shown in figure 4. A total peak
power of 15.6dBm can be delivered to the load plus
termination. Both power amplifier can be powered
down independently from the PDN input by connect-
ing the VPI input to VBB saving approximately 12
mW of power.
Value
7
-7
Unit
V
V
VIN, VOUT Voltage at any Analog Input or Output
VCC +0.3 to VBB -0.3
V
Voltage at any Digital Input or Output
VCC +0.3 to GNDA -0.3
V
Toper
Operating Temperature Range: ETC5064/67
ETC5064-X/67-X
-25 to +125
°C
-40 to +125
°C
Tstg
Storage Temperature Range
-65 to +150
°C
Lead Temperature (soldering, 10 seconds)
300
°C
5/18
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