max9234eumtd Maxim Integrated Products, Inc., max9234eumtd Datasheet - Page 7

max9234eumtd

Manufacturer Part Number

max9234eumtd

Description

Hot-swappable, 21-bit, Dc-balanced Lvds Deserializers

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX9234EUMTD.pdf (14 pages)

Current page: 7 of 14
Download datasheet (611Kb)

Table 1. Part Equivalent Table

The MAX9234/MAX9236 operate at a parallel clock fre-

quency of 8MHz to 34MHz. The MAX9238 operates at a

parallel clock frequency of 16MHz to 66MHz. The tran-

sition times of the single-ended outputs are increased

on the MAX9234/MAX9236 for reduced EMI.

Data coding by the MAX9209/MAX9211/MAX9213/

MAX9215 serializers (which are companion devices to

the MAX9234/MAX9236/MAX9238 deserializers) limits

the imbalance of ones and zeros transmitted on each

channel. If +1 is assigned to each binary 1 transmitted

and -1 is assigned to each binary 0 transmitted, the varia-

tion in the running sum of assigned values is called the

digital sum variation (DSV). The maximum DSV for the

data channels is 10. At most, 10 more zeros than ones,

or 10 more ones than zeros, are transmitted. The maxi-

mum DSV for the clock channel is five. Limiting the DSV

and choosing the correct coupling capacitors maintains

differential signal amplitude and reduces jitter due to

droop on AC-coupled links.

To obtain DC balance on the data channels, the serial-

izer parallel data is inverted or not inverted, depending

on the sign of the digital sum at the word boundary.

Two complementary bits are appended to each group

of 7 parallel input data bits to indicate to the MAX9234/

MAX9236/MAX9238 deserializers whether the data bits

are inverted (see Figure 9). The deserializer restores

the original state of the parallel data. The LVDS clock

signal alternates duty cycles of 4/9 and 5/9, which

maintain DC balance.

Bit errors experienced with DC-coupling can be elimi-

nated by increasing the receiver common-mode voltage

range by AC-coupling. AC-coupling increases the com-

mon-mode voltage range of an LVDS receiver to nearly

the voltage rating of the capacitor. The typical LVDS dri-

ver output is 350mV centered on an offset voltage of

1.25V, making single-ended output voltages of 1.425V

and 1.075V. An LVDS receiver accepts signals from 0 to

2.4V, allowing approximately ±1V common-mode differ-

ence between the driver and receiver on a DC-coupled

MAX9234

MAX9236

MAX9238

PART

Hot-Swappable, 21-Bit, DC-Balanced LVDS

_______________________________________________________________________________________

Detailed Description

EQUIVALENT WITH DCB/NC = HIGH OR OPEN

AC-Coupling Benefits

DC Balance

MAX9210

MAX9220

MAX9222

link (2.4V - 1.425V = 0.975V and 1.075V - 0V = 1.075V).

Common-mode voltage differences may be due to

ground potential variation or common-mode noise. If

there is more than ±1V of difference, the receiver is not

guaranteed to read the input signal correctly and may

cause bit errors. AC-coupling filters low-frequency

ground shifts and common-mode noise and passes

high-frequency data. A common-mode voltage differ-

ence up to the voltage rating of the coupling capacitor

(minus half the differential swing) is tolerated. DC-bal-

anced coding of the data is required to maintain the dif-

ferential signal amplitude and limit jitter on an

AC-coupled link. A capacitor in series with each output

of the LVDS driver is sufficient for AC-coupling.

However, two capacitors—one at the serializer output

and one at the deserializer input—provide protection in

case either end of the cable is shorted to a high voltage.

Figure 1. LVDS Input Circuit

Figure 2. Worst-Case Test Pattern

EVEN RxOUT

RISING-EDGE STROBE SHOWN.

ODD RxOUT

RxCLK OUT

FREQUENCY (MHz)

RxIN_ + OR

RxIN_ - OR

RxCLK IN+

RxCLK IN-

OPERATING

RIN1

16 to 66

8 to 34

Deserializers

RCIP

1.2V

OUTPUT STROBE

Falling edge

Rising edge

max9234eumtd Maxim Integrated Products, Inc., max9234eumtd Datasheet - Page 7

max9234eumtd

Related parts for max9234eumtd