DS2153QN-A7/T&R Maxim Integrated, DS2153QN-A7/T&R Datasheet - Page 17

DS2153QN-A7/T&R

Manufacturer Part Number

DS2153QN-A7/T&R

Description

Network Controller & Processor ICs

Manufacturer

Maxim Integrated

Datasheet

1.DS2153QN-A7.pdf (60 pages)

Specifications of DS2153QN-A7/T&R

Product

Framer

Number Of Transceivers

Supply Current (max)

65 mA

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

PLCC-44

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

5 V

Supply Voltage - Max

5.25 V

Supply Voltage - Min

4.8 V

Part # Aliases

90-2153Q-NT7

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4.1 Local Loopback

When CCR2.0 is set to a 1, the DS2153Q will be forced into Local Loopback (LLB). In this loopback,

data will continue to be transmitted as normal through the transmit side of the SCT. Data being received

at RTIP and RRING will be replaced with the data being transmitted. Data in this loopback will pass

through the jitter attenuator. See

4.2 Remote Loopback

When CCR2.1 is set to a 1, the DS2153Q will be forced into Remote Loopback (RLB). In this loopback,

data recovered off the E1 line from the RTIP and RRING pins will be transmitted back onto the E1 line

(with any BPVs that might have occurred intact) via the TTIP and TRING pins. Data will continue to

pass through the receive side of the DS2153Q as it would normally and the data at the TSER input will be

ignored. Data in this loopback will pass through the jitter attenuator. See

4.3 Framer Loopback

When CCR1.7 is set to a 1, the DS2153Q will enter a Framer Loopback (FLB) mode. This loopback is

useful in testing and debugging applications. In FLB, the DS2153Q will loop data from the transmit side

back to the receive side. When FLB is enabled, the following will occur:

The RCLK output will be replaced with the TCLK input.

4.4 Automatic Alarm Generation

When either CCR2.4 or CCR2.5 is set to 1, the DS2153Q monitors the receive side to determine if any of

the following conditions are present: loss of receive frame synchronization, AIS alarm (all 1s) reception,

or loss of receive carrier (or signal). If any one (or more) of the above conditions is present, then the

DS2153Q will either force an AIS alarm (if CCR2.5 = 1) or a Remote Alarm (CCR2.4 = 1) to be

transmitted via the TTIP and TRING pins. It is an illegal state to have both CCR2.4 and CCR2.5 set to 1

at the same time.

4.5

On power-up, after the supplies are stable, the DS2153Q should be configured for operation by writing to

all of the internal registers (this includes setting the Test Register) since the contents of the internal

registers cannot be predicted on power-up. Next, the LIRST bit should be toggled from 0 to 1 to reset the

line interface circuitry (it will take the DS2153Q about 40ms to recover from the LIRST being toggled).

Finally, after the SYSCLK input is stable, the ESR bit should be toggled from a 0 to a 1 and back to 0

(this step can be skipped if the elastic stores are disabled).

1) Data will be transmitted at TTIP and TRING.

2) Data off the E1 line at RTIP and RRING will be ignored.

Power-Up Sequence

Figure 1-1

for more details.

17 of 60

Figure 1-1

for more details.

DS2153QN-A7/T&R Maxim Integrated, DS2153QN-A7/T&R Datasheet - Page 17

DS2153QN-A7/T&R

Specifications of DS2153QN-A7/T&R

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