G2993 Datasheet, PDF(6/10 Page) Global Mixed-mode Technology Inc

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G2993 Datasheet, PDF (6/10 Pages) Global Mixed-mode Technology Inc – DDR Termination Regulator

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Global Mixed-mode Technology Inc.

Pin Description

G2993

NUMBER

NAME

VDDQ

AVIN

PVIN

VTT

GND

FUNCTION

Input for internal reference which equals to VDDQ/2

Analog input pin

Power input pin

Output voltage for connection to termination resistors, equal to VDDQ/2

Ground

Block Diagram

VDDQ

AVIN

PVIN

50k

VTT

GND

Description

The G2993 is a linear bus termination regulator de-

signed to meet the JEDEC SSTL-2 and SSTL-3 (Se-

ries Stub Termination Logic) specifications for termi-

nation of DDR-SDRAM. The output, VTT, is capable of

sinking and sourcing current while regulating the out-

put voltage equal to VDDQ/2. The G2993 is designed

to maintain the excellent load regulation and with fast

response time to minimum the transition preventing

shoot-through. The G2993 also incorporates two dis-

tinct power rails that separates the analog circuitry

(AVIN) from the power output stage (PVIN). This

power rails split can be utilized to reduce the internal

power dissipation. And this also permits G2993 to pro-

vide a termination solution for the next generation of

DDR-SDRAM (DDR II).

Series Stub Termination Logic (SSTL) was created to

improve signal integrity of the data transmission

across the memory bus. This termination scheme is

essential to prevent data error from signal reflections

while transmitting at high frequencies encountered

with DDR-SDRAM. The most common form of termi-

nation is Class II single parallel termination. This in-

volves one RS series resistor from the chipset to the

memory and one RT termination resistor, both 25â¦

typically. The resistors can be changed to scale the

current requirements from the G2993. This implemen-

tation can be seen below in Figure 1.

VDD

CHIPSET

VTT

MENORY

VREF

Figure 1. SSTL-Termination Scheme

AVIN, PVIN

AVIN and PVIN are two independent input supply pins

for the G2993. AVIN is used to supply all the internal

analog circuits. PVIN is only used to supply the output

stage to create the regulated VTT. To keep the regula-

tion successfully, AVIN should be equal to or larger

than PVIN. Using a higher PVIN voltage will produce a

larger sourcing capability from VTT. But the internal

power loss will also increase and then the heat in-

creases. If the junction temperature exceeds the

thermal shutdown threshold than the G2993 will enter

the shutdown state, where VTT is tri-state.

For SSTL-2 applications, the AVIN and PVIN can be

short together at 2.5V to minimize the PCB complexity

and to reduce the bypassing capacitors for the two

supply pins separately.

Ver: 1.3

Jan 13, 2004

TEL: 886-3-5788833

http://www.gmt.com.tw

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