DC817A Quick Start Guide Datasheet by Analog Devices Inc.

L7 DEMO CIRCUIT 817A QUICK START GUIDE LTC2 92 7 Single Power Supply Tracking Controller TECHNOLOGY L7 SVMBOL PARAMETER CONDmONS MIN TVP MAX UNITS Vcc v VCC(UVLOI Vcc RISING V VCC[UVLO) mV VONITH) VON RISING V VONIHYST) mV VTRACK V VTRACK V VFB(CLAM P) - ‘Fa V L7LJDEN2

1

DESCRIPTION

Demonstration circuit DC817A is intended for

evaluating the performance of the LTC2927 Single

Power Supply Tracking Controller. The board

contains two LTC2927s tied to a common ramping

signal, providing tracking and sequencing for two

power supplies. As assembled, DC817A operates

directly with two DC222 buck outputs.

Design files for this circuit board are available.

Call the LTC factory.

, LTC and LT are registered trademarks of Linear Technology Corporation.

ThinSOT and PowerPath are trademarks of Linear Technology Corporation.

PERFORMANCE SUMMARY

Specification s are at T

A

= 25°C

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

V

CC

Input Supply Voltage Range

2.6 5.5

V

CC(UVLO)

Supply Undervoltage Lockout V

CC RISING

2.2 2.5 2.7

V

•

V

CC(UVLO)

Supply Undervoltage Lockout Hysteresis

25

mV

V

ON(TH)

ON Pin Threshold Voltage V

ON RISING

1.210 1.230 1.250

V

•

V

ON(HYST)

ON Pin Hysteresis 30 75 150

mV

V

TRACK

= -10

µ

A 0.77 0.8 0.82

V

TRACK

TRACK Pin Voltage

V

TRACK

= -1mA 0.77 0.8 0.82

V

FB(CLAMP)

FB Pin Clamp Voltage 1

µ

A

•

I

FB

•

1mA

1.5 2.0 2.3

V

OPERATING PRINCIPLES

The LTC2927 controls the output voltage of a

power supply by introducing a small current into the

supply’s feedback node. When this current is at its

maximum, the supply’s output is forced to zero;

decreasing this current to zero allows the supply’s

output to rise to its normal, regulated output.

The RAMP pin is driven by an internally generated

constant current source, which when loaded with

capacitor, produces a linear voltage ramp. By

varying the injected current under the control of this

“master” ramping signal, the slave supply output is

made to follow the master ramp in a predictable

fashion.

Any slave power supply, which has an accessible

inverting feedback node of less than 1.5V, and a

feedback divider current in the range of 10

µ

A to

1mA, may be controlled with the LTC2927.

Tracking behavior is configured using two resistors,

RTA and RTB. A valid Vcc supply for the LTC2927

must be present before the tracked supply is

enabled or powered up.

Boost converters and certain linear regulators are

generally incompatible with the LTC2927 control

technique.

DC817A includes two LTC2927 controllers driven

by a common ramp signal. The first controller

DEMO CIRCUIT

817A

QUICK START GUIDE

LTC2927

Single Power Supply

Tracking

Controller

VIN DE222L +5V 0N SIGNAL SOURCE DCEZSA VIII TT suppm RUN/SS 73” LﬂADI VOSNESE —" RUN/SS —<> +245v VOSNESE m” Lam sumvz ‘0 lvml L7LJILW

2

generates the ramp signal and monitors Vcc with

its ON pin. The second controller’s RAMP pin is

driven by REMPBUF of the first; its ON pin is

defeated by being tied to V

CC

.

To reconfigure DC817A for use with other supplies,

five components may be changed: C3 to control

the master ramp rate, and RTA1, RTB1, RTA2, and

RTB2 to control the relative behavior of the two

supplies. Hold-off time, ramp rate, and offset are all

defined by the resistors. For details on calculating

these component values, consult the LTC2927 data

sheet.

QUICK START PROCEDURE

As a design example, DC817A is populated for

operation with two DC222 slave supplies, using the

LT1735 Buck Regulator, which are configured for

3.3V and 2.5V output. The first LTC2927 controls

the 3.3V supply, while the second controls the 2.5V

supply.

Connect the slave supplies as shown in Figure 1,

attaching both the RUN/SS and VOSENSE lines to

the DC817A. Next apply 5V to all boards; the

outputs will begin tracking up once the ON pin of

U1 detects a valid 5V input.

The tracking waveforms are shown in Figure 2 and

Figure 3. Also shown in Figure 2 and Figure 3 is an

optional “enable “ waveform, which is simply a

switch closure to ground on U1’s ON pin (see

Figure 1 for location of this pad). This may be

driven by an open collector, such as an enable

signal from a microcontroller or separate supply

monitor.

.

Figure 1. Test Setup

013 Ith 2.32 \‘ ChZ 1.00 \‘ v

3

Figure 2. Startup Waveforms

Figure 3. Shutdown Waveforms

, to v mem zma «.5; $523: wabm mam .653 is N <38 a:="" 95%="" es="" was="" mum="" maﬁa="" 5%on="" $4657.00="" 3552="" .="" 0:225="" itzw="" ebb="" hoza="" 39:88:="" row="" 233="" he="" :20="" :55="" $2:="" kr.‘="" he="" 9.3%;="" 025ng="" mm=""> m magamwo: N: 1-41» H E v 1—1 0 >33“ E m vast u qunédm mu :0 LE SDKNWNOZ S . 0 w .m 00> o > 42:3? g :2, $me 5&3 2. $29.53 .35 ,9 y. {2:5 .

4

Figure 4. Reference A

is ea 2 :2 «52 (L mummh G...4.<~n~0n_ «5:3...me="" guam="" m3020mroz="">m «a: AKOU >UOQOZEUm—E “(ﬁn—z: m NE 8: mg. 5: 56: 53 E :2 5 5: on g a 3 >5 “3 V : swam: a s :33; 93 a

5

Figure 5. Reference B

DC817A Quick Start Guide Datasheet by Analog Devices Inc.

Products related to this Datasheet