Dual DC/DC Controller for DDR Power with Differential VDDQ Sensing and ±50mA VT T Reference Design Note 503 Ding Li Introduction The LTC ®3876 is a complete DDR power solution, compatible with DDR1, DDR2, DDR3 and DDR4 lower voltage standards. The IC includes VDDQ and V TT DC/ DC controllers and a precision linear V TT reference. A differential output sense amplifier and precision internal reference combine to offer an accurate VDDQ supply. The V TT controller tracks the precision VTTR linear reference with less than 20mV total error. The precision VTTR reference maintains 1.2% regulation accuracy, tracking one-half VDDQ over temperature for a ±50mA reference load.

High Efficiency, 4.5V to 14V Input, Dual Output DDR Power Supply Figure 1 shows a DDR3 power supply that operates from a 4.5V to 14V input. Figure 2 shows efficiency curves for discontinuous and forced continuous modes of operation. Load-Release Transient Detection As output voltages drop, a major challenge for switching regulators is to limit the overshoot in VOUT during a load-release transient. The LTC3876 uses the DTR pin to monitor the first derivative of the ITH voltage to detect load release transients. Figure 3 shows how this pin is used for transient detection.

The LTC3876 features controlled on-time, valley current mode control, allowing it to accept a wide 4.5V to 38V input range, while supporting VDDQ outputs from 1.0V to 2.5V, and V TT and VTTR outputs from 0.5V to 1.25V. Its phase-locked loop (PLL) can be synchronized to an external clock between 200kHz and 2MHz. It also features voltage-tracking soft-start, PGOOD and fault protection. VIN 4.5V TO 14V

SENSE1+

15k

BOOST1

MT1

DB1

1μF

BOOST2

TG1

TG2

SW1

SW2

MT2

4.7μF

VOUTSENSE1+ VOUTSENSE1– PGOOD 0.1μF 15k

1000pF 100k

PGOOD TRACK/SS1

MB2 COUT4 330μF

BG2

SGND

70 65

VIN = 12V, DCM VIN = 12V, CCM VIN = 5V, DCM VIN = 5V, CCM 0

VTTR 2.2μF 1000pF

VTTR ±50mA

15k

ITH2 dn503 F01

Figure 1. 1.5V VDDQ/20A 0.75V VTT/10A DDR3 Power Supply 06/12/503

80 75

55

VTTSNS

RUN

COUT3 100μF

85

60

1μF

VTTRVCC

ITH1 RT

VTT 0.75V ±10A

DRVCC2

PGND

20k

100k

90

L2, 0.47μH

INTVCC BG1

95

3.57k

DB2 DRVCC1

MB1

15k

0.1μF

L1, 0.47μH

COUT2 330μF w2 30.1k

0.1μF

SENSE2+

0.1μF

EFFICIENCY (%)

0.1μF

3.57k

COUT1 100μF

L, LT, LTC, LTM, Linear Technology, the Linear logo and OPTI-LOOP are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners.

VIN LTC3876 SENSE2– SENSE1–

CIN1 180μF w2

1.5V, 20A VDDQ

The two RITH resistors establish a voltage divider from INTVCC to SGND, and bias the DC voltage on the DTR pin (at steady-state load or ITH voltage) slightly above half of INTVCC. For a given CITH1, this divider does not

2

4

6 8 10 12 14 16 18 20 OUTPUT CURRENT (A)

dn503 F02

Figure 2. Efficiency of Circuit in Figure 1 (VDDQ = 1.5V, fSW = 400kHz, L = 470nH)

LOAD CURRENT 10A/DIV

INTVCC

1/2 INTVCC

ITH

+

LOAD RELEASE DETECTION TO LOGIC CONTROL



DTR

VOUT 100mV/DIV SW 5V/DIV

INTVCC CITH1

CITH2

VIN = 12V, VDDQ = 1.5V, IO = 0A TO 15A

dn503 F04a

VOVS = 127.5mV

RITH2

dn503 F03

a. LTC3876 DTR Disabled

RITH1

LOAD CURRENT 10A/DIV

Figure 3. Functional Diagram of DTR Connection for Load Transient Detection

change compensation performance as long as RITH1/ RITH2 equals RITH that would normally be used in conventional single-resistor OPTI-LOOP® compensation. The divider sets the RC time constant needed for the DTR duration. The DTR sensitivity can be adjusted by the DC bias voltage difference between DTR and half INTVCC. This difference could be set as low as 100mV, as long as the ITH ripple voltage with DC load current does not trigger the DTR. If the load transient is fast enough that the DTR voltage drops below half of INTVCC, a load release event is detected. The bottom gate (BG) is turned off, so that the inductor current flows through the body diode in the bottom MOSFET. Note that the DTR feature causes additional losses on the bottom MOSFET, due to its body diode conduction. The bottom FET temperature may be higher with a load of frequent and large load steps—an important design consideration. Test results show a 20°C increase when a continuous 100%-to-50% load step pulse chain with 50% duty cycle and 100kHz frequency is applied to the output. VTT Reference (VTTR) The linear V TT reference, VTTR, is specifically designed for large DDR memory systems by providing superior accuracy and load regulation for up to ±50mA output load. VTTR is the buffered output of the V TT differential reference resistor divider. VTTR is a high output linear reference, which tracks the V TT differential reference resistor divider and equals half of the remote-sense VDDQ voltage. Connect VTTR directly to the DDR memory VREF input. Both input and output supply decoupling are important to performance and accuracy. A 2.2μF output capaciData Sheet Download

www.linear.com

VIN = 12V, VDDQ = 1.5V, IO = 0A TO 15A

VOUT 100mV/DIV SW 5V/DIV

VOVS = 115mV

dn503 F04b

b. LTC3876 DTR Enabled

Figure 4. Load Release Comparison

tor is recommended for most typical applications. It is suggested to use no less than 1μF and no more than 47μF on the VTTR output. The VTTR power comes from the VTTRVCC pin. The typical recommended input VTTRVCC RC decoupling filter is 2.2μF and 1Ω. When VDDQSNS is tied to INTVCC, the VTTR linear reference output is 3-stated and VTTR becomes a reference input pin, with voltage from another LTC3876 in a multiphase application. VTT Supply The V TT supply reference is connected internally to the output of the VTTR V TT reference output. The V TT supply operates in forced continuous mode and tracks VDDQ in start-up and in normal operation regardless of the MODE/PLLIN settings. In start-up, the V TT supply is enabled coincident with the VDDQ supply. Operating the V TT supply in forced continuous mode allows accurate tracking in start-up and under all operating conditions. Conclusion The LTC3876 is a complete high efficiency and high accuracy solution for DDR memory power supplies. The unique controlled on-time architecture allows extremely low step-down ratios while maintaining a fast, constant switching frequency. The wide input voltage range of 4.5V–38V and programmable, synchronizable switching frequency from 200kHz to 2MHz gives designers the flexibility needed to optimize their systems. For applications help, call (408) 432-1900, Ext. 3598

Linear Technology Corporation

dn503f LT/AP 0612 196K • PRINTED IN THE USA

FAX: (408) 434-0507 ● www.linear.com

© LINEAR TECHNOLOGY CORPORATION 2012

1630 McCarthy Blvd., Milpitas, CA 95035-7417 (408) 432-1900



DN503 - Dual DC/DC Controller for DDR Power ... - Linear Technology

Design Note 503. Ding Li. Introduction .... of frequent and large load steps—an important design consideration. Test results ... application. VTT Supply. The VTT ...

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