DS21458-W+ Maxim Integrated, DS21458-W+ Datasheet - Page 119

DS21458-W+

Manufacturer Part Number

DS21458-W+

Description

Network Controller & Processor ICs

Manufacturer

Maxim Integrated

Datasheet

1.DS21458-W.pdf (269 pages)

Specifications of DS21458-W+

Product

Framer

Number Of Transceivers

Data Rate

64 Kbps

Supply Current (max)

328 mA

Maximum Operating Temperature

+ 70 C

Mounting Style

SMD/SMT

Package / Case

CSBGA

Minimum Operating Temperature

0 C

Operating Supply Voltage

3.3 V

Supply Voltage - Max

3.465 V

Supply Voltage - Min

3.135 V

Part # Aliases

90-21458+W00

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DS21455/DS21458 Quad T1/E1/J1 Transceivers

20.1 Receive Side

See the IOCR1 and IOCR2 registers for information on clock and I/O configurations.

If the receive-side elastic store is enabled, then the user must provide either a 1.544MHz or 2.048MHz

clock at the RSYSCLK pin. For higher rate system-clock applications, see the Interleaved PCM Bus

Operation section. The user has the option of either providing a frame/multiframe sync at the RSYNC pin

or having the RSYNC pin provide a pulse on frame/multiframe boundaries. If signaling reinsertion is

enabled, signaling data in TS16 is realigned to the multiframe-sync input on RSYNC. Otherwise, a

multiframe-sync input on RSYNC is treated as a simple frame boundary by the elastic store. The framer

will always indicate frame boundaries on the network side of the elastic store via the RFSYNC output

whether the elastic store is enabled or not. Multiframe boundaries will always be indicated via the

RMSYNC output. If the elastic store is enabled, then RMSYNC will output the multiframe boundary on

the backplane side of the elastic store.

20.1.1 T1 Mode

If the user selects to apply a 2.048MHz clock to the RSYSCLK pin, then the data output at RSER will be

forced to all ones every fourth channel and the F-bit will be passed into the MSB of TS0. Hence, channels

1 (bits 1–7), 5, 9, 13, 17, 21, 25, and 29 (time slots 0 (bits 1–7), 4, 8, 12, 16, 20, 24, and 28) will be forced

to a one. Also, in 2.048MHz applications, the RCHBLK output will be forced high during the same

channels as the RSER pin. This is useful in T1 to E1 conversion applications. If the two-frame elastic

buffer either fills or empties, a controlled slip will occur. If the buffer empties, then a full frame of data

will be repeated at RSER and the SR5.0 and SR5.1 bits will be set to a one. If the buffer fills, then a full

frame of data will be deleted and the SR5.0 and SR5.2 bits will be set to a one.

20.1.2 E1 Mode

If the elastic store is enabled, then either CAS or CRC-4 multiframe boundaries will be indicated via the

RMSYNC output. If the user selects to apply a 1.544MHz clock to the RSYSCLK pin, then every fourth

channel of the received E1 data will be deleted and a F-bit position (which will be forced to one) will be

inserted. Hence,

hannels 1, 5, 9, 13, 17, 21, 25, and 29 (time slots 0, 4, 8, 12, 16, 20, 24, and 28) will be

deleted from the received E1 data stream. Also, in 1.544MHz applications, the RCHBLK output will not

be active in channels 25 through 32 (or in other words, RCBR4 is not active). If the two-frame elastic

buffer either fills or empties, a controlled slip will occur. If the buffer empties, then a full frame of data

will be repeated at RSER and the SR5.0 and SR5.1 bits will be set to a one. If the buffer fills, then a full

frame of data will be deleted and the SR5.0 and SR5.2 bits will be set to a one.

119 of 269

DS21458-W+ Maxim Integrated, DS21458-W+ Datasheet - Page 119

DS21458-W+

Specifications of DS21458-W+

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