QLX4270RIQSR Intersil, QLX4270RIQSR Datasheet - Page 3

QLX4270RIQSR

Manufacturer Part Number

QLX4270RIQSR

Description

IC EQUALIZER REC 5.4GBPS 46QFN

Manufacturer

Intersil

Datasheet

1.EBL4270-EVALZ.pdf (7 pages)

Specifications of QLX4270RIQSR

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Pin Descriptions

Exposed Pad

PIN NAME

CP3[A,B,C]

CP4[A,B,C]

CP2[C,B,A]

CP1[C,B,A]

OUT4[N,P]

OUT3[N,P]

OUT2[N,P]

OUT1[N,P]

IN1[P,N]

IN2[P,N]

IN3[P,N]

IN4[P,N]

BGREF

GND

IS1

IS2

IS4

IS3

4, 7, 10, 29,

16, 17, 45,

18, 19, 20

21, 22, 23

39, 40, 41

42, 43, 44

NUMBER

32, 35

11, 12

15, 24

27, 28

30, 31

33, 34

36, 37

2, 3

5, 6

8, 9

Detection Threshold. Reference DC CURRENT threshold for input signal power detection. Data

output Out[k] is muted when the power of the equalized version of In[k] falls below the threshold.

Tie to ground to disable electrical idle preservation and always enable the limiting amplifier.

Equalizer 1 differential input, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Power supply. 1.2V supply voltage. The use of parallel 100pF and 10nF decoupling capacitors to

ground is recommended for each of these pins for broad high-frequency noise suppression.

Equalizer 2 differential input, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Equalizer 3 differential input, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Equalizer 4 differential input, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Impedance Select 1. CMOS logic input. When the voltage on this pin is LOW, the single-ended input

impedance of In1P and In1N each go above 200kΩ and powers down the channel. This can be used

to disable some of the channels in case the DisplayPort application has less than four links, in order

to save power consumption. Otherwise, connect to VDD to hold the input impedance at 50Ω.

Impedance Select 2. CMOS logic input. When the voltage on this pin is LOW, the single-ended input

impedance of In1P and In1N each go above 200kΩ and powers down the channel. This can be used

to disable some of the channels in case the DisplayPort application has less than four links, in order

to save power consumption. Otherwise, connect to VDD to hold the input impedance at 50Ω.

Ground

No-Connect

Control pins for setting equalizer 3. CMOS logic inputs. Pins are read as a 3-digit number to set the

boost level. A is the MSB, and C is the LSB. Pins are internally pulled down through a 25kΩ resistor.

Control pins for setting equalizer 4. CMOS logic inputs. Pins are read as a 3-digit number to set the

boost level. A is the MSB, and C is the LSB. Pins are internally pulled down through a 25kΩ resistor.

Impedance Select 4. CMOS logic input. When the voltage on this pin is LOW, the single-ended input

impedance of In1P and In1N each go above 200kΩ and powers down the channel. This can be used

to disable some of the channels in case the DisplayPort application has less than four links, in order

to save power consumption. Otherwise, connect to VDD to hold the input impedance at 50Ω.

Impedance Select 3. CMOS logic input. When the voltage on this pin is LOW, the single-ended input

impedance of In1P and In1N each go above 200kΩ and powers down the channel. This can be used

to disable some of the channels in case the DisplayPort application has less than four links, in order

to save power consumption. Otherwise, connect to VDD to hold the input impedance at 50Ω.

Equalizer 4 differential output, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Equalizer 3 differential output, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Equalizer 2 differential output, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

Equalizer 1 differential output, CML. The use of 100nF low ESL/ESR MLCC capacitor with at least

4GHz frequency response is recommended.

External bandgap reference resistor. Recommended value of 6.04kΩ ±1%.

Control pins for setting equalizer 2. CMOS logic inputs. Pins are read as a 3-digit number to set the

boost level. A is the MSB, and C is the LSB. Pins are internally pulled down through a 25kΩ resistor.

Control pins for setting equalizer 1. CMOS logic inputs. Pins are read as a 3-digit number to set the

boost level. A is the MSB, and C is the LSB. Pins are internally pulled down through a 25kΩ resistor.

Exposed ground pad. For proper electrical and thermal performance, this pad should be connected

to the PCB ground plane.

QLx4270-DP

DESCRIPTION

March 3, 2010

FN6972.2

QLX4270RIQSR Intersil, QLX4270RIQSR Datasheet - Page 3

QLX4270RIQSR

Specifications of QLX4270RIQSR

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