DS2151QNB+ Maxim Integrated, DS2151QNB+ Datasheet - Page 15

DS2151QNB+

Manufacturer Part Number

DS2151QNB+

Description

Network Controller & Processor ICs

Manufacturer

Maxim Integrated

Datasheet

1.DS2151QNB.pdf (60 pages)

Specifications of DS2151QNB+

Product

Framer

Number Of Transceivers

Data Rate

2.048 Mbps

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

4.75 V

Part # Aliases

90-2151Q+NB0

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4.1 Local Loopback

When CCR1.6 is set to a 1, the DS2151Q 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 and the jitter attenuator should be programmed to be in the transmit path.

LLB is primarily used in debug and test applications. See

4.2 Remote Loopback

When CCR1.4 is set to a 1, the DS2151Q will be forced into Remote Loopback (RLB). In this loopback,

data recovered off the T1 line from the RTIP and RRING pins will be transmitted back onto the T1 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 DS2151Q as it would normally and the data at the TSER input will be

ignored. Data in this loopback will pass through the jitter attenuator. RLB is used to place the DS2151Q

into “line” loopback, which is a requirement of both ANSI T1.403 and AT&T TR62411. See

for more details.

4.3 Payload Loopback

When CCR1.1 is set to a 1, the DS2151Q will be forced into Payload Loopback (PLB). Normally, this

loopback is only enabled when ESF framing is being performed. In a PLB situation, the DS2151Q will

loop the 192 bits of payload data (with BPVs corrected) from the receive section back to the transmit

section. The FPS framing pattern, CRC6 calculation, and the FDL bits are not looped back, they are

reinserted by the DS2151Q. When PLB is enabled, the following will occur:

4.4 Framer Loopback

When CCR1.0 is set to a 1, the DS2151Q will enter a Framer Loopback (FLB) mode. This loopback is

useful in testing and debugging applications. In FLB, the DS2151Q will loop data from the transmit side

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

1) Data will be transmitted from the TTIP and TRING pins synchronous with RCLK instead of

2) All the receive side signals will continue to operate normally.

3) The TCHCLK and TCHBLK signals are forced low.

4) Data at the TSER pin is ignored.

5) The TLCLK signal will become synchronous with RCLK instead of TCLK.

1) Unless the RLB is active, an unframed all 1s code will be transmitted at TTIP and TRING.

2) Data off the T1 line at RTIP and RRING will be ignored.

3) The RCLK output will be replaced with the TCLK input.

TCLK.

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Figure 1-1

for more details.

Figure 1-1

DS2151QNB+ Maxim Integrated, DS2151QNB+ Datasheet - Page 15

DS2151QNB+

Specifications of DS2151QNB+

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