CY7B991-2JC Cypress Semiconductor Corp, CY7B991-2JC Datasheet - Page 10

CY7B991-2JC

Manufacturer Part Number

CY7B991-2JC

Description

IC CLK BUFF SKEW 8OUT 32PLCC

Manufacturer

Cypress Semiconductor Corp

Type

Buffer/Driverr

Series

RoboClock™r

Datasheet

1.CY7B991-7JC.pdf (15 pages)

Specifications of CY7B991-2JC

Number Of Circuits

Package / Case

32-PLCC

Ratio - Input:output

8:8

Differential - Input:output

Yes/Yes

Input

3-State, TTL

Output

TTL

Frequency - Max

80MHz

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Frequency-max

80MHz

Output Frequency Range

3.75 MHz to 80 MHz

Supply Voltage (max)

5.5 V

Supply Voltage (min)

4.5 V

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

SMD/SMT

Operating Supply Voltage

5 V

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

428-1374

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

CY7B991-2JC

Manufacturer:

Cypress Semiconductor Corp

Quantity:

10 000

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Operational Mode Descriptions

Figure 2 shows the PSCB configured as a zero-skew clock

buffer. In this mode the 7B991/992 can be used as the basis

for a low-skew clock distribution tree. When all of the function

select inputs (xF0, xF1) are left open, the outputs are aligned

and may each drive a terminated transmission line to an inde-

pendent load. The FB input can be tied to any output in this

Figure 3 shows a configuration to equalize skew between met-

al traces of different lengths. In addition to low skew between

outputs, the PSCB can be programmed to stagger the timing

of its outputs. The four groups of output pairs can each be

programmed to different output timing. Skew timing can be

adjusted over a wide range in small increments with the appro-

priate strapping of the function select pins. In this configuration

the 4Q0 output is fed back to FB and configured for zero skew.

The other three pairs of outputs are programmed to yield dif-

ferent skews relative to the feedback. By advancing the clock

signal on the longer traces or retarding the clock signal on

shorter traces, all loads can receive the clock pulse at the

same time.

Document #: 38-07138 Rev. **

SYSTEM

CLOCK

SYS–

TEM

CLOCK

REF

4F0

4F1

3F0

3F1

2F0

2F1

1F0

1F1

TEST

REF

4F0

4F1

3F0

3F1

2F0

2F1

1F0

1F1

TEST

LENGTH L1 = L2

Figure 2. Zero-Skew and/or Zero-Delay Clock Driver

LENGTH L1 = L2 = L3 = L4

4Q0

4Q1

3Q0

3Q1

2Q0

2Q1

1Q0

1Q1

Figure 3. Programmable-Skew Clock Driver

4Q0

4Q1

3Q0

3Q1

2Q0

2Q1

1Q0

1Q1

L3 < L2 by 6 inches

L4 > L2 by 6 inches

REF

configuration and the operating frequency range is selected

with the FS pin. The low-skew specification, coupled with the

ability to drive terminated transmission lines (with impedances

as low as 50 ohms), allows efficient printed circuit board de-

sign.

In this illustration the FB input is connected to an output with

0-ns skew (xF1, xF0 = MID) selected. The internal PLL syn-

chronizes the FB and REF inputs and aligns their rising edges

to insure that all outputs have precise phase alignment.

Clock skews can be advanced by 6 time units (t

an output selected for zero skew as the feedback. A wider range of

delays is possible if the output connected to FB is also skewed.

Since “Zero Skew”, +t

groups, and since the PLL aligns the rising edges of REF and FB,

it is possible to create wider output skews by proper selection of the

xFn inputs. For example a +10 t

achieved by connecting 1Q0 to FB and setting 1F0 = 1F1 = GND,

LOAD

, and –t

7B991–10

LOAD

7B991–9

between REF and 3Qx can be

are defined relative to output

CY7B991

CY7B992

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) when using

CY7B991-2JC Cypress Semiconductor Corp, CY7B991-2JC Datasheet - Page 10

CY7B991-2JC

Specifications of CY7B991-2JC

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