W210H Datasheet, PDF(3/14 Page) Cypress Semiconductor – Spread Spectrum FTG for VIA K7 Chipset

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W210H Datasheet, PDF (3/14 Pages) Cypress Semiconductor – Spread Spectrum FTG for VIA K7 Chipset

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W210

Overview

The W210 was developed as a single-chip device to meet the

clocking needs of VIA K7 core logic chip sets. In addition to the

typical outputs provided by a standard FTG, the W210 adds a

thirteenth output buffer, supporting SDRAM DIMM modules in

conjunction with the chipset.

Cypressâs proprietary spread spectrum frequency synthesis

technique is a feature of the CPU and PCI outputs. When en-

abled, this feature reduces the peak EMI measurements of not

only the output signals and their harmonics, but also of any

other clock signals that are properly synchronized to them.

Functional Description

I/O Pin Operation

Pins 7, 8, 25, 26, and 48 are dual-purpose l/O pins. Upon

power-up these pins act as logic inputs, allowing the determi-

nation of assigned device functions. A short time after power-

up, the logic state of each pin is latched and the pins become

clock outputs. This feature reduces device pin count by com-

bining clock outputs with input select pins.

An external 10-kâ¦ âstrappingâ resistor is connected between

the l/O pin and ground or VDD. Connection to ground sets a

latch to â0,â connection to VDD sets a latch to â1.â Figure 1 and

Figure 2 show two suggested methods for strapping resistor

connections.

Upon W210 power-up, the first 2 ms of operation is used for

input logic selection. During this period, the five I/O pins (7, 8,

25, 26, 48) are three-stated, allowing the output strapping re-

sistor on the l/O pins to pull the pins and their associated ca-

pacitive clock load to either a logic HIGH or LOW state. At the

end of the 2-ms period, the established logic â0â or â1â condi-

tion of the l/O pin is latched. Next the output buffer is enabled

converting the l/O pins into operating clock outputs. The 2-ms

timer starts when VDD reaches 2.0V. The input bits can only

be reset by turning VDD off and then back on again.

It should be noted that the strapping resistors have no signifi-

cant effect on clock output signal integrity. The drive imped-

ance of clock outputs is <40â¦ (nominal), which is minimally

affected by the 10-kâ¦ strap to ground or VDD. As with the se-

ries termination resistor, the output strapping resistor should

be placed as close to the l/O pin as possible in order to keep

the interconnecting trace short. The trace from the resistor to

ground or VDD should be kept less than two inches in length to

prevent system noise coupling during input logic sampling.

When the clock outputs are enabled following the 2-ms input

period, the specified output frequency is delivered on the pin,

assuming that VDD has stabilized. If VDD has not yet reached

full value, output frequency initially may be below target but will

increase to target once VDD voltage has stabilized. In either

case, a short output clock cycle may be produced from the

CPU clock outputs when the outputs are enabled.

VDD

Output Strapping Resistor

W210

Power-on

Reset

Timer

Output

Buffer

Output Three-state

Hold

Output

Low

Data

Latch

10 kâ¦

(Load Option 1)

10 kâ¦

(Load Option 0)

Series Termination Resistor

Clock Load

Figure 1. Input Logic Selection Through Resistor Load Option

Jumper Options

W210

Power-on

Reset

Timer

Output

Buffer

Output Three-state

Hold

Output

Low

Data

Latch

10 kâ¦

VDD

Output Strapping Resistor

Series Termination Resistor

Clock Load

Resistor Value R

Figure 2. Input Logic Selection Through Jumper Option

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