LTC3616 Datasheet, PDF(20/28 Page) Linear Technology – 6A, 4MHz Monolithic Synchronous Step-Down DC/DC Converter

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LTC3616 Datasheet, PDF (20/28 Pages) Linear Technology – 6A, 4MHz Monolithic Synchronous Step-Down DC/DC Converter

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LTC3616

APPLICATIONS INFORMATION

The LTC3616 allows the user to control the slew rate of the

switching node SW by using the SRLIM/DDR pin. Tying

this pin to ground selects the fastest slew rate. The slow-

est slew rate is selected when the pin is open. Connecting

a resistor (between 10k and 100k) from SRLIM pin to

ground adjusts the slew rate between the maximum and

minimum values. The reduced dV/dt of the switch node

results in a significant reduction of the supply and ground

ringing, as well as lower radiated EMI.

Particular attention should be used with very high switching

frequencies. Using the slowest slew rate (SRLIM open)

can reduce the minimum duty cycle capability.

Output Voltage Tracking Input

If the DDR pin is not tied to SVIN, once VTRACK/SS exceeds

0.6V, the run state is entered and the MODE selection, power

good and current foldback circuits are enabled.

In the run state, the TRACK/SS pin can be used for track-

ing down/up the output voltage of another supply. If the

VTRACK/SS drops below 0.6V, the LTC3616 enters the down

tracking state and VOUT is referenced to the TRACK/SS volt-

age. If the TRACK/SS pin drops below 0.2V, the switching

frequency is reduced to ensure that the minimum duty

cycle limit does not prevent the output from following

the TRACK/SS pin. The run state will resume if VTRACK/SS

again exceeds 0.6V and VOUT is referenced to the internal

precision reference (see Figure 8).

Through the TRACK/SS pin, the output voltage can be set

up for either coincident or ratiometric tracking, as shown

in Figure 6.

To implement the coincident tracking behavior in Fig-

ure 6a, connect an extra resistive divider to the output

of the master channel and connect its midpoint to the

TRACK/SS pin for the slave channel. The ratio of this

divider should be selected to be the same as that of the

slave channelâs feedback divider (Figure 7a). In this track-

ing mode, the master channelâs output must be set higher

than slave channelâs output. To implement the ratiometric

tracking behavior in Figure 6b, different resistor divider

values must be used as specified in Figure 7b.

VOUT1

VOUT2

TIME

(6a) Coincident Tracking

VOUT1

VOUT2

TIME

3616 F06

(6b) Ratiometric Tracking

Figure 6. Two Different Modes of Output Voltage Tracking

VOUT2

VOUT1

VFB2

LTC3616

R4 R3

VFB1

VIN

R2 R2 LTC3616

TRACK/SS2

R4 â¤ R3

TRACK/SS1

LTC3616 CHANNEL 2

SLAVE

LTC3616 CHANNEL 1

MASTER

3616 F07a

Figure 7a. Setup for Coincident Tracking

VOUT2

VOUT1

VFB2

LTC3616

TRACK/SS2

LTC3616 CHANNEL 2

SLAVE

R5 R3 R1/R2 < R5/R6

VFB1

R6 R4 LTC3616

TRACK/SS1

VIN

LTC3616 CHANNEL 1

MASTER

3616 F07b

Figure 7b. Setup for Ratiometric Tracking

3616f

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