CPC7595 Datasheet, PDF(15/25 Page) Clare, Inc.

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CPC7595 Datasheet, PDF (15/25 Pages) Clare, Inc. – Line Card Access Switch

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2. Functional Description

CPC7595

2.1 Introduction

To protect the CPC7595 from an overvoltage fault

The CPC7595 has the following states:

condition, the use of a secondary protector is required.

The secondary protector must limit the voltage seen at

â¢ Talk. Loop break switches SW1 and SW2 closed, all

other switches open.

the TLINE and RLINE terminals to a level below the

maximum breakdown voltage of the switches. To

â¢ Ringing. Ringing switches SW3 and SW4 closed, all

minimize the stress on the solid-state contacts, use of

other switches open.

â¢ TESTout. Testout switches SW5 and SW6 closed,

all other switches open.

â¢ Ringing generator test. SW7 and SW8 closed, all

y other switches open.

r â¢ TESTin. Testin switches SW9 and SW10 closed, all

other switches open.

â¢ Simultaneous TESTin and TESTout. SW9, SW10,

a SW5, and SW6 closed, all other switches open.

â¢ Simultaneous TESTout and Ringing generator

in test. SW5, SW6, SW7, and SW8 closed, all other

switches open (only on the xC and xD versions).

â¢ All-Off. All switches open.

See âTruth Tablesâ on page 14 for more information.

lim The CPC7595 offers break-before-make and

make-before-break switching from the ringing state to

the talk state with simple TTL level logic input control.

Solid-state switch construction means no impulse

e noise is generated when switching during ringing

cadence or ring trip, eliminating the need for external

r zero-cross switching circuitry. State-control is via TTL

logic-level input so no additional driver circuitry is

required. The linear line break switches SW1 and

P SW2 have exceptionally low RON and excellent

matching characteristics. The ringing switch, SW4,

a foldback or crowbar type secondary protector is

highly recommended. With proper selection of the

secondary protector, a line card using the CPC7595

will meet all relevant ITU, LSSGR, TIA/EIA and IEC

protection requirements.

The CPC7595 operates from a single +5 V supply

only. This gives the device extremely low idle and

active power consumption with virtually any range of

battery voltage. The battery voltage used by the

CPC7595 has a two fold function. For protection

purposes it is used as a fault condition current source

for the internal integrated protection circuitry.

Secondly, it is used as a reference so that in the event

of battery voltage loss, the CPC7595 will enter the

all-off state.

2.2 Under Voltage Switch Lock Out Circuitry

2.2.1 Introduction

Smart logic in the CPC7595 now provides for switch

state control during both power up and power loss

transitions. An internal detector is used to evaluate the

VDD supply to determine when to de-assert the under

voltage switch lock out circuitry with a rising VDD and

when to assert the under voltage switch lock out

has a minimum open contact breakdown voltage of

465 V at +25Â°C, sufficiently high with proper protection

circuitry with a falling VDD. Any time unsatisfactory low

to prevent breakdown in the presence of a transient

VDD conditions exist, the lock out circuit overrides user

fault condition (i.e., passing the transient on to the

switch control by blocking the information at the

ringing generator).

external input pins and conditioning internal switch

commands to the all-off state. Upon restoration of

Integrated into the CPC7595 is an over-voltage

VDD, the switches will remain in the all-off state until

clamping circuit, active current limiting, and a thermal

the LATCH input is pulled low.

shutdown mechanism to provide protection to the

SLIC during a fault condition. Positive and negative

The rising VDD switch lock-out release threshold is

lightning surge currents are reduced by the current

internally set to ensure all internal logic is properly

limiting circuitry and hazardous potentials are diverted

biased and functional before accepting external switch

away from the SLIC via the protection diode bridge or

commands from the inputs to control the switch states.

the optional integrated protection SCR. Power-cross

potentials are also reduced by the current limiting and

For a falling VDD event, the lock-out threshold is set to

assure proper logic and switch behavior up to the

thermal shutdown circuits.

moment the switches are forced off and external

inputs are suppressed.

R00B

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