CPC5621ATR Clare, CPC5621ATR Datasheet - Page 10
CPC5621ATR
Manufacturer Part Number
CPC5621ATR
Description
IC LITELINK III FULL RING 32SOIC
Manufacturer
Clare
Series
LITELINK® IIIr
Specifications of CPC5621ATR
Function
Data Access Arrangement (DAA)
Number Of Circuits
1
Voltage - Supply
3 V ~ 5.5 V
Current - Supply
9mA
Power (watts)
1W
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
32-SOIC (7.5mm Width)
Includes
Caller ID Signal Reception Function, Full-Wave Ring Detection
For Use With
CLA165 - LITELINK III EVALUATION BOARDCLA164 - LITELINK III EVALUATION BOARD
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Interface
-
Other names
CLA321TR
CPC5621ATR
CPC5621ATR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
CPC5621ATR
Manufacturer:
LITELINK
Quantity:
20 000
CPC5620/CPC5621
3. Using LITELINK
As a full-featured telephone line interface, LITELINK
performs the following functions:
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LITELINK can accommodate specific application
features without sacrificing basic functionality and
performance. Application features include, but are not
limited to:
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This section of the data sheet describes LITELINK
operation in standard configuration for usual
operation. Clare offers additional application
information on-line
include information on the following topics:
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Other specific application materials are also
referenced in this section as appropriate.
3.1 Switch Hook Control (On-hook
and Off-hook States)
LITELINK operates in one of two conditions, on-hook
and off-hook. In the on-hook condition the telephone
line is available for calls. In the off-hook condition the
telephone line is engaged. The OH control input is
used to place LITELINK in one of these two states.
With OH high, LITELINK is on-hook and ready to
make or receive a call. While on-hook, the CID control
is used to select between passing the caller-ID tones
10
DC termination and V/I slope control
AC impedance control
2-wire to 4-wire conversion (hybrid)
Current limiting
Ringing signal reception
Caller ID signaling reception
Switch hook
High transmit power operation
Pulse dialing
Ground start
Loop start
Parallel telephone off-hook detection (line intrusion)
Battery reversal detection
Line presence detection
World-wide programmable operation
Circuit isolation considerations
Optimizing LITELINK performance
Data Access Arrangement architecture
LITELINK circuit descriptions
Surge protection
EMI considerations
(see Section 5 on page
13). These
www.clare.com
from Tip and Ring to the RX+ and RX- outputs and the
ringing detect function. Setting CID to a logic low
enables the CID path while placing CID to a logic high
configures the LITELINK to detect ringing.
Asserting OH low causes LITELINK to answer or
originate a call by entering the off-hook state. In the
off-hook state, loop current flows through LITELINK.
3.2 On-hook Operation: OH=1
The LITELINK application circuit leakage current is
less than 10 μA with 100 V across ring and tip,
equivalent to greater than 10 MΩ on-hook resistance.
3.2.1 Ringing Signal Reception via the
In the on-hook state (OH and CID not asserted), an
internal multiplexer turns on the snoop circuit. This
circuit monitors the telephone line for two conditions;
an incoming ring signal, and caller ID data bursts.
Refer to the application schematic diagram (see
3. on page
high-voltage isolation barrier between the telephone
line and SNP- and SNP+ on the LITELINK while
coupling AC signals to the snoop amplifier. The snoop
circuit “snoops” the telephone line continuously while
drawing no current. In the LITELINK, ringing signals
are compared to a threshold. The comparator output
forms the RING signal output from LITELINK. This
signal must be qualified by the host system as a valid
ringing signal. A low level on RING indicates that the
LITELINK ring signal threshold has been exceeded.
For the CPC5620 (with the half-wave ring detector),
the frequency of the RING output follows the
frequency of the ringing signal from the central office
(CO), typically 20 Hz. The RING output of the
CPC5621 (with the full-wave ring detector) is twice the
ringing signal frequency.
Hysteresis is employed in the LITELINK ring detector
circuit to provide noise immunity. The set-up of the ring
detector comparator causes RING output pulses to
remain low for most of the ringing signal half-cycle.
The RING output returns high for the entire negative
half-cycle of the ringing signal for the CPC5620. For
the CPC5621, the RING output returns high for a short
period near the zero-crossing of the ringing signal
before returning low during the positive half-cycle. For
both the CPC5620 and CPC5621, the RING output
remains high between ringing signal bursts.
Snoop Circuit
6). C7 (CSNP-) and C8 (CSNP+) provide a
Figure
R04
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