82P2282PF IDT, Integrated Device Technology Inc, 82P2282PF Datasheet - Page 25

82P2282PF

Manufacturer Part Number

82P2282PF

Description

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.82P2282PF.pdf (381 pages)

Specifications of 82P2282PF

Screening Level

Industrial

Pin Count

100

Mounting

Surface Mount

Package Type

TQFP

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Lead Free Status / RoHS Status

Not Compliant

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IDT82P2282

3.2

impedance matching circuit or external impedance matching circuit.

circuit is enabled. 100 Ω, 110 Ω, 75 Ω or 120 Ω internal impedance

matching circuit can be selected by the R_TERM[1:0] bits.

circuit is disabled, and different external resistors should be used to real-

ize different impedance matching.

cable for one link. Table 3 lists the recommended matching resistor val-

ues for the receiver.

3.2.1

Intrusive Monitoring per T1.102 can be performed between two devices.

The monitored link of one device is in normal operation, and the moni-

toring link of the other device taps the monitored one through a high

impedance bridging circuit. Refer to

and

RRINGn of the monitoring link is dramatically attenuated. To compen-

sate this bridge resistive attenuation, Monitor Gain can be used to boost

the signal by 22 dB, as selected by the MG[1:0] bits (b1~0, T1/J1-

02AH,...). For normal operation, the Monitor Gain should be set to 0 dB,

i.e., the Monitor Gain of the monitored link should be 0 dB.

Partially Internal Impedance Matching mode. Here the external r or

internal IM is used for voltage division, not for impedance matching. That

is, the r (IM) and the R make up of a resistance bridge. The resistive

Functional Description

In both T1/J1 and E1 short haul applications, the Protected Non-

After the high resistance bridging circuit, the signal arriving at RTIPn/

The monitoring link can be configured to any of the External or

Figure 5&Figure 6

The receiver impedance matching can be realized by using internal

When the R_TERM[2] bit is ‘0’, the internal impedance matching

When the R_TERM[2] bit is ‘1’, the internal impedance matching

Figure 2 shows the appropriate components to connect with the

LINE MONITOR

RECEIVER IMPEDANCE MATCHING

(COAX).

Line

Note: 1. Common decoupling capacitor

2. Cp 0-560 (pF)

3. D1 - D8, Motorola - MBR0540T1;

•

2:1

1:1

Figure 3&Figure 4

•

Figure 2. Receive / Transmit Line Circuit

•

VDDAR

(Twisted Pair)

VDDAX

VDDAR

VDDAX

International Rectifier - 11DQ04 or 10BQ060

RTIP

RRING

TTIP

TRING

attenuation of this bridge is 20lg(r/(2R+r)) dB for Twisted Pair or 20lg(r/

(R+r)) dB for COAX. The value of resistive attenuation should be consis-

tent with the setting of Monitor Gain (22 dB).

outputs on the REFA_OUT and REFB_OUT pins. When set to 0, the

output is MCLK; when set to 1, the output is high level.

Table 3: Impedance Matching Value For The Receiver

DUAL T1/E1/J1 LONG HAUL / SHORT HAUL TRANSCEIVER

Configuration

In case of LOS, REFH_LOS bit (b0, T1/J1-03EH) determines the

120 Ω (E1)

100 Ω (T1)

110 Ω (J1)

75 Ω (E1)

Cable

VDDAR

VDDAX

GNDA

R_TERM[2:0]

Internal Termination

0.1µF

0 0 0

0 0 1

0 1 0

0 1 1

•

120 Ω

68µF

3.3 V

R_TERM[2:0]

External Termination

1 X X

August 20, 2009

120 Ω

100 Ω

110 Ω

75 Ω

82P2282PF IDT, Integrated Device Technology Inc, 82P2282PF Datasheet - Page 25

82P2282PF

Specifications of 82P2282PF

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