IDT77V1264L200PGI IDT, Integrated Device Technology Inc, IDT77V1264L200PGI Datasheet - Page 12

IDT77V1264L200PGI

Manufacturer Part Number

IDT77V1264L200PGI

Description

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.IDT77V1264L200PGI.pdf (49 pages)

Specifications of IDT77V1264L200PGI

Number Of Channels

Type Of Atm Phy Interface

UTOPIA

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

3.13V

Operating Supply Voltage (max)

3.47V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Pin Count

144

Mounting

Surface Mount

Lead Free Status / RoHS Status

Not Compliant

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encoder. The NRZI code transitions the wire voltage each time a '1' bit is

sent. This, together with the previous encoding schemes guarantees

that long run lengths of either '0' or '1's are prevented. Each symbol is

shifted out with its most significant bit sent first.

line active by continuing to transmit valid symbols. But it does not

transmit another start-of-cell command until it has another cell for trans-

mission. The 77V1264L200 never generates idle cells.

lated automatically across the first 4 bytes of the cell header, depending

upon the setting of bit 5 of registers 0x03, 0x13, 0x23 and 0x33. This

byte is then either inserted as a replacement of the fifth byte transferred

to the PHY by the external system, or the cell is transmitted as received.

A third operating mode provides for insertion of "Bad" HEC codes which

may aid in communication diagnostics. These modes are controlled by

the LED Driver and HEC Status/Control Registers.

in reverse. The data is NRZI decoded before each symbol is reassem-

bled. The symbols are then sent to the 5b/4b decoder, followed by the

Command Byte Interpreter, De-Scrambler, and finally through a FIFO to

the UTOPIA or DPI interface to an ATM Layer device.

HEC errors, it does not attempt to correct them.

symbol-synchronized. When not symbol-synchronized, the receiver will

indicate a significant number of bad symbols, and will deassert the Good

Signal Bit as described below. Synchronization is established immedi-

ately once that port receives an Escape symbol, usually as part of the

start-of-cell command byte preceding the first received cell.

IDT77V1264L200

The output of the 4b/5b encoder provides serial data to the NRZI

When no cells are available to transmit, the 77V1264L200 keeps the

Transmit HEC Byte Calculation/Insertion

Byte #5 of each ATM cell, the HEC (Header Error Control) is calcu-

Receiver Description

The receiver side of the TC sublayer operates like the transmitter, but

ATM Cell Format

Note that although the IDT77V1264L200 can detect symbol and

Upon reset or the re-connect, each port's receiver is typically not

UDF = User Defined Field (or HEC)

Bit 7

Payload Byte 48

Payload Byte 1

Header Byte 1

Header Byte 2

Header Byte 3

Header Byte 4

UDF

Bit 0

3505 drw 52

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interrupt if the line is deemed 'bad'. The Interrupt Status Registers

(registers 0x01, 0x11, 0x21 and 0x31) contain a Good Signal Bit (bit 6,

set to 0 = Bad signal initially) which shows the status of the line per the

following algorithm:

set to 7. When the clock ticks for 1,024 cycles (32MHz clock, 1,024

cycles = 204.8 symbols) and no "bad symbol" has been received, the

counter decreases by one. However, if at least one "bad symbol" is

detected during these 1,024 clocks, the counter is increased by one, to

a maximum of 7. The Good Signal Bit is set to 1 when this counter

reaches 0. The Good Signal Bit could be set to 1 as quickly as 1,433

symbols (204.8 x 7) if no bad symbols have been received.

a "Good" status). When the clock ticks for 1,024 cycles (32MHz clock,

1,024 cycles = 204.8 symbols) and there is at least one "bad symbol",

the counter increases by one. If it detects all "good symbols" and no

"bad symbols" in the next time period, the counter decreases by one.

The "Bad Signal" is declared when the counter reaches 7. The Good

Signal Bit could be set to 0 as quickly as 1,433 symbols (204.8 x 7) if at

least one "bad symbol" is detected in each of seven consecutive groups

of 204.8 symbols.

feature which is essential for some applications requiring synchroniza-

tion for voice or video, and unnecessary for other applications. Figure 7

shows the options available for generating and receiving the 8kHz

timing marker.

TXREF Control Register (0x40). Each port is individually programmable

to either a local source or a looped remote source. The local source is

TXREF, which is an 8kHz clock of virtually any duty cycle. When

unused, TXREF should be tied high. Also note that it is not limited to

8kHz, should a different frequency be desired. When looped, a received

X_8 command byte causes one to be generated on the transmit side.

negative pulse on RXREF. The source channel of the marker is

programmable. When the clock multiplier in the Enhanced Control 2

Width Select in the LED Driver and HEC Status/Control register(s) to

any value greater than the default for proper operation of RXREF.

The IDT77V1264L200 monitors line conditions and can provide an

To declare 'Good Signal' (from "Bad" to "Good")

There is an up-down counter that counts from 7 to 0 and is initially

To declare 'Bad Signal' (from "Good" to "Bad")

The same up-down counter counts from 0 to 7 (being at 0 to provide

8kHz Timing Marker

The 8kHz timing marker, described earlier, is a completely optional

The source of the marker is programmable in the RXREF and

A received X_8 command byte causes the 77V1264L200 to issue a

December 2004

IDT77V1264L200PGI IDT, Integrated Device Technology Inc, IDT77V1264L200PGI Datasheet - Page 12

IDT77V1264L200PGI

Specifications of IDT77V1264L200PGI

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