LUCL9311AP-D AGERE [Agere Systems], LUCL9311AP-D Datasheet - Page 11
LUCL9311AP-D
Manufacturer Part Number
LUCL9311AP-D
Description
Line Interface and Line Access Circuit Full-Feature SLIC with High Longitudinal Balance, Ringing Relay,and GR-909 Test Access
Manufacturer
AGERE [Agere Systems]
Datasheet
1.LUCL9311AP-D.pdf
(50 pages)
July 2001
Pin Information
Table 1. Pin Descriptions (continued)
Operating States
Input State Coding
State control is via a tiered logic system. The device
must initially be set to a primary control state (B3 = 0).
This will set the operational state of the SLIC and
switch. The secondary control table (B3 = 1) is used to
turn on the PPM amplifier or to turn on the test circuitry
and enter a test state. The primary state of the device
(the state of the SLIC and switch) will not change when
entering a secondary control state.
Within the primary control table, each state will set the
SLIC and the switch to a specific mode. The exception
is the tip-amp and ring-amp states. The tip-amp and
ring-amp states will change the configuration of the
switches, but leave the state of the SLIC unchanged
from the previous primary control mode.
Agere Systems Inc.
Pin Symbol Type
33
34
35
36
37
39
40
41
42
43
44
RGDET
DGND
RCVN
AGND
RCVP
VITR
VTX
ICM
V
ITR
TXI
CC
G
O
O
O
G
P
I
I
I
I
I
(continued)
Digital Ground. Ground return for V
Ring Ground Detect. When high, this open collector output indicates the presence of a
ring ground or a tip ground. This supervision output may be used in ground start, or com-
mon-mode fault detection applications. It has an internal pull-up.
Common-Mode Current Sense. To program tip or ring ground sense threshold, connect
a resistor to AGND and connect a capacitor to AGND to filter 50 Hz/60 Hz. If unused, the
pin is connected to ground.
Tip/Ring Voltage Output. This output is a voltage that is directly proportional to the differ-
ential tip/ring current. A resistor from this node to ITR sets the device transimpedance.
Gain shaping for termination impedance with a COMBO I codec is also achieved with a
network from this node to ITR.
Transmit Gain. A current output which is proportional to the differential current flowing
from tip to ring. Input to AX amplifier. Connect a resistor from this node to VTX to set trans-
mit gain to 300 . Gain shaping for termination impedance with a COMBO I codec is also
achieved with a network from this node to VTX.
Transmit ac Input (Noninverting). Connect a 0.1 F capacitor from this pin to VTX for dc
blocking.
Transmit ac Output Voltage. The output is a voltage that is directly proportional to the dif-
ferential ac tip/ring current. This output is connected via a proper interface network to the
codec.
Receive ac Signal Input (Noninverting). This high-impedance input controls the ac dif-
ferential voltage on tip and ring.
Receive ac Signal Input (Inverting). This high-impedance input controls the ac differen-
tial voltage on tip and ring.
Analog Ground. Ground return for V
5 V Analog Power Supply. 5 V supply for analog circuitry.
Once a primary (device) control state is selected, the
test circuitry can be activated via a secondary control
state. Within the secondary control table, there are test
active modes. Upon entering a test active mode in the
secondary control table, both TESTLEV output and
TESTSIG input are active and the test switches set to
the appropriate condition. (See Test Architecture Dia-
gram, Figure 2.) An exception is the V
mode. Upon entering V
active, and the internal (2.35 V typical) reference volt-
age appears at TESTLEV. In the V
TESTSIG input is deactivated.
Once test is on, the user may reverse the battery, enter
the scan, ring, or disconnect modes, in the primary
table, without turning off test. Test may also be deacti-
vated by selecting TESToff in the secondary control
table.
DD
Name/Function
CC
current.
Ringing Relay, and GR-909 Test Access
current.
REF
, only the TESTLEV output is
REF
REF
mode, the
test active
11
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