CY2308SXC-5HT Datasheet CY2308SXI-3, CY2308SXI-3T, CY2308SI-2 | P1-P3

CY2308

3.3V Zero Delay Buffer

Cypress Semiconductor Corporation • 198 Champion Court • San Jose

CA 95134-1709 • 408-943-2600

Document Number: 38-07146 Rev. *H Revised March 12, 2009

Features

■

Zero input-output propagation delay, adjustable by capacitive

load on FBK input

■

Multiple configurations, see Available CY2308 Configurations

on page 3

■

Multiple low skew outputs

■

Two banks of four outputs, three-stateable by two select inputs

■

10 MHz to 133 MHz operating range

■

75 ps typical cycle-to-cycle jitter (15 pF, 66 MHz)

■

Space saving 16-pin 150 mil SOIC package or 16-pin TSSOP

■

3.3V operation

■

Industrial temperature available

Functional Description

The CY2308 is a 3.3V Zero Delay Buffer designed to distribute

high speed clocks in PC, workstation, datacom, telecom, and

other high performance applications.

The part has an on-chip PLL that locks to an input clock

presented on the REF pin. The PLL feedback is driven into the

FBK pin and obtained from one of the outputs. The

input-to-output skew is less than 350 ps and output-to-output

skew is less than 200 ps.

The CY2308 has two banks of four outputs each that is controlled

by the select inputs as shown in the table Select Input Decoding

on page 2. If all output clocks are not required, Bank B is

three-stated. The input clock is directly applied to the output for

chip and system testing purposes by the select inputs.

The CY2308 PLL enters a power down state when there are no

rising edges on the REF input. In this mode, all outputs are

three-stated and the PLL is turned off resulting in less than 50 μA

of current draw. The PLL shuts down in two additional cases as

shown in the table Select Input Decoding on page 2.

Multiple CY2308 devices accept the same input clock and

distribute it in a system. In this case, the skew between the

outputs of two devices is less than 700 ps.

The CY2308 is available in five different configurations as shown

in the table Available CY2308 Configurations on page 3. The

CY2308–1 is the base part where the output frequencies equal

the reference if there is no counter in the feedback path. The

CY2308–1H is the high drive version of the –1 and rise and fall

times on this device are much faster.

The CY2308–2 enables the user to obtain 2X and 1X frequencies

on each output bank. The exact configuration and output

frequencies depend on the output that drives the feedback pin.

The CY2308–3 enables the user to obtain 4X and 2X frequencies

on the outputs.

The CY2308–4 enables the user to obtain 2X clocks on all

outputs. Thus, the part is extremely versatile and is used in a

variety of applications.

The CY2308–5H is a high drive version with REF/2 on both

banks.

REF

CLKA1

CLKA2

CLKA3

CLKA4

FBK

PLL

MUX

Select Input

Decoding

CLKB1

CLKB2

CLKB3

CLKB4

Extra Divider (–2, –3)

Extra Divider (–3, –4)

Extra Divider (–5H)

Logic Block Diagram

[+] Feedback

CY2308

Document Number: 38-07146 Rev. *H Page 2 of 15

Pinouts

Figure 1. Pin Diagram - 16 Pin SOIC (Top view)

Table 1. Pin Definitions - 16 Pin SOIC

Pin Signal Description

REF

[1]

Input reference frequency, 5V tolerant input

CLKA1

[2]

Clock output, Bank A

CLKA2

[2]

Clock output, Bank A

3.3V supply

5 GND Ground

CLKB1

[2]

Clock output, Bank B

CLKB2

[2]

Clock output, Bank B

[3]

Select input, bit 2

[3]

Select input, bit 1

CLKB3

[2]

Clock output, Bank B

CLKB4

[2]

Clock output, Bank B

12 GND Ground

13 V

3.3V supply

CLKA3

[2]

Clock output, Bank A

CLKA4

[2]

Clock output, Bank A

16 FBK PLL feedback input

Select Input Decoding

S2 S1 CLOCK A1–A4 CLOCK B1–B4 Output Source PLL Shutdown

0 0 Tri-State Tri-State PLL Y

0 1 Driven Tri-State PLL N

Driven

[4]

Driven

[4]

Reference Y

1 1 Driven Driven PLL N

FBK

CLKA4

CLKA3

GND

CLKB4

CLKB3

REF

CLKA1

CLKA2

GND

CLKB1

CLKB2

Notes

1. Weak pull down.

2. Weak pull down on all outputs.

3. Weak pull ups on these inputs.

4. Outputs inverted on 2308–2 and 2308–3 in bypass mode, S2 = 1 and S1 = 0.

[+] Feedback

CY2308

Document Number: 38-07146 Rev. *H Page 3 of 15

Zero Delay and Skew Control

To close the feedback loop of the CY2308, the FBK pin is driven

from any of the eight available output pins. The output driving the

FBK pin drives a total load of 7 pF plus any additional load that

it drives. The relative loading of this output to the remaining

outputs adjusts the input-output delay. This is shown in the

Figure 2.

For applications requiring zero input-output delay, all outputs

including the one providing feedback is equally loaded.

If input-output delay adjustments are required, use the Zero

Delay and Skew Control graph to calculate loading differences

between the feedback output and remaining outputs.

For zero output-output skew, outputs are loaded equally. For

further information on using CY2308, refer to the application note

“CY2308: Zero Delay Buffer.”

Available CY2308 Configurations

Device Feedback From Bank A Frequency Bank B Frequency

CY2308–1 Bank A or Bank B Reference Reference

CY2308–1H Bank A or Bank B Reference Reference

CY2308–2 Bank A Reference Reference/2

CY2308–2 Bank B 2 X Reference Reference

CY2308–3 Bank A 2 X Reference

Reference or Reference

[5]

CY2308–3 Bank B 4 X Reference 2 X Reference

CY2308–4 Bank A or Bank B 2 X Reference 2 X Reference

CY2308–5H Bank A or Bank B Reference /2 Reference /2

Figure 2. REF. Input to CLKA/CLKB Delay Versus Difference in Loading between FBK Pin and CLKA/CLKB Pins

Note

5. Output phase is indeterminant (0° or 180° from input clock). If phase integrity is required, use the CY2308–2.

[+] Feedback

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15

CY2308SXC-5HT

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Description:

Clock Buffer 3.3VZDB COM

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CY2308SXC-5HT

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