MAX9111EKA+T Maxim Integrated Products, MAX9111EKA+T Datasheet - Page 8

MAX9111EKA+T

Manufacturer Part Number

MAX9111EKA+T

Description

IC RCVR SNGL LVDS SOT23-8

Manufacturer

Maxim Integrated Products

Type

Receiverr

Datasheets

1.MAX9111ESA.pdf (10 pages)

2.MAX9112ESA.pdf (8 pages)

Specifications of MAX9111EKA+T

Number Of Drivers/receivers

0/1

Protocol

LVDS

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Package / Case

SOT-23-8

Logic Family

MAX9111

Logic Type

LVDS Line Receiver

Supply Voltage (max)

4 V

Supply Voltage (min)

- 0.3 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Data Rate

500 Mbps

Maximum Power Dissipation

714 mW

Minimum Operating Temperature

- 40 C

Output Voltage

+/- 0.3 V

Propagation Delay Time

1.77 ns

Supply Current

4.2 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Single/Dual LVDS Line Receivers with

Ultra-Low Pulse Skew in SOT23

__________ Applications Information

Bypass V

ic 0.1µF and 0.001µF capacitors in parallel, as close to

the device as possible, with the 0.001µF valued capaci-

tor the closest to the device. For additional supply

bypassing, place a 10µF tantalum or ceramic capacitor

at the point where power enters the circuit board.

Output trace characteristics affect the performance of

the MAX9111/MAX9113. Use controlled impedance

traces to match trace impedance to both transmission

medium impedance and the termination resistor.

Eliminate reflections and ensure that noise couples as

common mode by running the differential traces close

together. Reduce skew by matching the electrical

length of the traces. Excessive skew can result in a

degradation of magnetic field cancellation.

Maintain the distance between the differential traces to

avoid discontinuities in differential impedance. Avoid

90° turns and minimize the number of vias to further

prevent impedance discontinuities.

Transmission media should have a differential charac-

teristic impedance of about 100Ω. Use cables and con-

nectors that have matched impedance to minimize

impedance discontinuities.

Avoid the use of unbalanced cables such as ribbon or

simple coaxial cable. Balanced cables such as twisted

pair offer superior signal quality and tend to generate

less EMI due to canceling effects. Balanced cables

tend to pick up noise as common mode, which is

rejected by the LVDS receiver.

Figure 3a. Human Body ESD Test Modules

VOLTAGE

SOURCE

_______________________________________________________________________________________

HIGH-

CHARGE-CURRENT

LIMIT RESISTOR

with high-frequency surface-mount ceram-

1MΩ

100pF

C s

STORAGE

CAPACITOR

Cables and Connectors

RESISTANCE

DISCHARGE

1500Ω

Differential Traces

Supply Bypassing

DEVICE

UNDER

TEST

The MAX9111/MAX9113 input differential voltage

depends on the driver current and termination resis-

tance. Refer to the MAX9110/MAX9112 differential dri-

ver data sheet for this information.

Minimize the distance between the termination resistor

and receiver inputs. Use a single 1% to 2% surface-

mount resistor across the receiver inputs.

For LVDS applications, a four-layer PCB that provides

separate power, ground, LVDS signals, and input sig-

nals is recommended. Isolate the input and LVDS sig-

nals from each other to prevent coupling. For best

results, separate the input and LVDS signal planes with

the power and ground planes.

Figure 3b. Human Body Current Waveform

AMPERES

36.8%

100%

90%

10%

CURRENT WAVEFORM

TIME

I r

PEAK-TO-PEAK RINGING

(NOT DRAWN TO SCALE)

Board Layout

Termination

MAX9111EKA+T Maxim Integrated Products, MAX9111EKA+T Datasheet - Page 8

MAX9111EKA+T

Specifications of MAX9111EKA+T

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