Multi-Function Clock Driver | Cypress CY7B9911V specification

CY7B9911V 3.3V RoboClock+™

frequency, while still maintaining the low skew characteristics of the clock driver. The LVPSCB performs all of the functions described in this section at the same time. It can multiply by two

and four or divide by two (and four) at the same time. This shifts its outputs over a wide range or maintain zero skew between selected outputs.

Figure 7. Multi-Function Clock Driver

REF

LOAD

110 MHz

27.5 MHz

REF

INVERTED

DISTRIBUTION

LOAD

CLOCK

4F0

4Q0

27.5 MHz

4F1

4Q1

3F0

3Q0

3F1

3Q1

LOAD

110 MHz

2F0

2Q0

2F1

2Q1

ZERO SKEW

1F0

1Q0

LOAD

1F1

1Q1

110 MHz

TEST

SKEWED –2.273 ns (–4tU)

		Figure 8. Board-to-Board Clock Distribution
			REF			LOAD
			REF
					Z0
	FB		L1
SYSTEM	FB					LOAD
	REF					LOAD
	REF
CLOCK	FS		L2		Z0
	FS	4Q0	L2		Z0
	4F0	4Q0
	4F1	4Q1
	3F0	3Q0
	3F1	3Q1	L3			LOAD
	2F0	2Q0			Z0
	2F1	2Q1			Z0
	1F0	1Q0	L4
	1F1	1Q1		FB
	TEST			FB
	TEST			REF
				FS	4Q0	LOAD
			Z0	4F0	4Q0
				4F0	4Q1
				4F1	4Q1
				3F0	3Q0
				3F1	3Q1
				2F0	2Q0	LOAD
				2F1	2Q1	LOAD
				1F0	1Q0
				1F1	1Q1
				TEST

Figure 8 shows the CY7B9911V connected in series to construct a zero skew clock distribution tree between boards. Delays of the downstream clock buffers are programmed to compensate for the wire length (that is, select negative skew equal to the wire delay) necessary to connect them to the master clock source, approximating a zero delay clock tree. Cascaded clock buffers accumulates low frequency jitter because of the non-ideal filtering characteristics of the PLL filter. Do not connect more than two clock buffers in a series.

Document Number: 38-07408 Rev. *D

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Figure 7. Multi-Function Clock Driver

Figure 8. Board-to-Board Clock Distribution

Document Number: 38-07408 Rev. *D