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L7583B View Datasheet(PDF) - Agere -> LSI Corporation

Part Name
Description
Manufacturer
L7583B
Agere
Agere -> LSI Corporation Agere
L7583B Datasheet PDF : 20 Pages
First Prev 11 12 13 14 15 16 17 18 19 20
Data Sheet
February 2001
L7583A/B/C/D Line Card Access Switch
Switching Behavior (continued)
Table 14. Break-Before-Make Operation
INPUT TESTin TESTout TSD
5V 0V
5V 0V
0 V Float
5 V Float
5V 0V
5 V Float
0V 0V
0 V Float
State
Power
Ringing
All Off
All Off
Idle/Talk
Timing
Hold this state for
25 ms. SW8 waiting
for zero current to turn
off.
Zero current has
occurred and SW8 has
opened.
Release break
switches.
Break
Switches
3&4
Open
Open
Open
Closed
Ring
Return
Switch
7
Closed
Open
Open
Open
Ring
Access
Switch
8
Closed
All Other
Switches
Open
Closed Open
Open
Open
Open
Open
Notes:
Break-before-make operation can be achieved using TSD as an input. In lines two and three of Table 14, instead of using the logic input pins to
force the all OFF state, force TSD to ground. This will override the logic inputs and also force the all OFF state. Hold this state for 25 ms. During
this 25 ms all OFF state, toggle the inputs from 10 (ringing state) to 00 (idle/talk state). After 25 ms, release TSD to return switch control to the
input pins which will set the idle talk state.
When using the L7583A/B/C/D in this mode, forcing TSD to ground will override the INPUT pins and force an all OFF state. Setting TSD to
5 V will allow switch control via the logic INPUT pins. However, setting TSD to 5 V will also disable the thermal shutdown mechanism. This is not
recommended. Therefore, to allow switch control via the logic INPUT pins, allow TSD to float.
Thus, when using TSD as an input, the two recommended states are 0 (overrides logic input pins and forces all OFF state) and float (allows
switch control via logic input pins and thermal shutdown mechanism is active). This may require use of an open-collector buffer.
Also note that TSD operation in L7583 is different than TSD operation of the L7581, where application of 5 V does not disable the thermal shut-
down mechanism.
Power Supplies
Both the 5 V and battery supply are brought onto the
L7583. The L7583 requires only the 5 V supply for
switch operation; that is, state control is powered exclu-
sively off of the 5 V supply. Because of this, the L7583
offers extremely low power dissipation, both in the idle
and active states.
The battery voltage is not used for switch state control.
The battery is used as a reference voltage by the inte-
grated secondary protection circuit. When the voltage
at TBAT or RBAT drops 2 V to 4 V below the battery, the
integrated SCR will trigger, thus preventing fault-
induced overvoltage situations at the TBAT/RBAT nodes.
Loss of Battery Voltage
As an additional protection feature, the L7583 monitors
the battery voltage. Upon loss of battery voltage, the
L7583 will automatically enter an all OFF state and
remain in that state until the battery voltage is restored.
The L7583 is designed such that the device will enter
the all OFF state if the battery rises above –10 V and
will remain off until the battery drops below –15 V.
Monitoring the battery for the automatic shutdown fea-
ture will draw a small current from the battery, typically
4 µA. This will add slightly to the overall power dissipa-
tion of the device.
Impulse Noise
Using the L7583 will minimize and possibly eliminate
the contribution to the overall system impulse noise
that is associated with ringing access switches.
Because of this characteristic of the L7583, it may not
be necessary to incorporate a zero cross switching
scheme. This ultimately depends upon the characteris-
tics of the individual system and is best evaluated at
the board level.
Lucent Technologies Inc.
11
 

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