KIT33701DWBEVB Freescale Semiconductor, KIT33701DWBEVB Datasheet - Page 24

KIT33701DWBEVB

Manufacturer Part Number

KIT33701DWBEVB

Description

KIT FOR 33701 POWER SUPPLY

Manufacturer

Freescale Semiconductor

Type

LDO Controllers & Regulatorsr

Datasheet

1.MC34701EKR2.pdf (39 pages)

Specifications of KIT33701DWBEVB

Main Purpose

DC/DC, Step Down with LDO

Outputs And Type

2, Non-Isolated

Voltage - Input

2.8 ~ 6V

Regulator Topology

Buck

Frequency - Switching

300kHz

Board Type

Fully Populated

Utilized Ic / Part

MC34701

Product

Power Management Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Voltage - Output

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

34701

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Standard Power Sequencing Control

LDO (LDO pin) and the switcher (VOUT pin) outputs as

follows:

Inverted Power Sequencing Control

switcher (VOUT pin) and LDO (LDO pin) outputs as follows:

34701

FUNCTIONAL DEVICE OPERATION

OPERATIONAL MODES

1. LDO > VOUT + 1.9V, turn off LDO. The LDO can be

2. LDO > VOUT + 2.0V, shunt LDO to ground. If turning

3. LDO < VOUT + 1.9V cancel (2).

4. LDO < VOUT + 1.8V, cancel (1) above, re-enable LDO.

5. LDO < VOUT - 0.1V, turn off switcher. The switcher

6. LDO < VOUT - 0.3V, turn on Sync (LS) MOSFET and

7. LDO > VOUT - 0.3 V, cancel (6).

8. LDO > VOUT - 0.1V, cancel (5). Normal operation

1. VOUT > LDO + 1.8V, turn off VOUT . The switcher

2. VOUT > LDO + 2.0V, shunt VOUT to ground. If turning

3. VOUT < LDO + 1.8V, cancel (1) and (2) above, re-

Comparators monitor voltage differences between the

forced off. This occurs whenever the LDO output

voltage exceeds the switcher output voltage by more

than 1.9V.

off the LDO is insufficient and the LDO output voltage

exceeds the switcher output voltage by more than

2.0V, a 1.5 Ω shunt MOSFET is turned on that

discharges the LDO load capacitor to ground. The

shunt MOSFET is used for switcher output shorts to

ground and for power down in case of VIN1 ≠ VIN2

with the switcher output falling faster than the LDO.

Normal operation resumes when the LDO output

voltage is less than 1.8V above the switcher output

voltage.

can be forced off. This occurs whenever the LDO is

less than VOUT - 0.1V.

1.5

MOSFET is forced off and the sync MOSFET is forced

on. This occurs when the switcher output voltage

exceeds the LDO output by more than 300mV.

resumes when LDO < VOUT - 0.1 V .

VOUT can be forced off. This occurs whenever the

VOUT output voltage exceeds the LDO output voltage

by more than 1.8V.

off the switcher VOUT is insufficient and the VOUT

output voltage exceeds the LDO output voltage by

more than 2.0V, a 1.5 Ω shunt MOSFET and the

switcher synchronous MOSFET are turned on to

discharge the VOUT load capacitor to ground. The

shunt MOSFET and synchronous MOSFET are used

for LDO output shorts to ground and for power down in

case of VIN1 ≠ VIN2 with LDO output falling faster than

the VOUT .

enable VOUT . Normal operation resumes when the

Ω

VOUT sink MOSFET. The buck high side

STANDARD OPERATING MODE

Single 3.3V Supply, VIN = VIN1 = VIN2 = 3.3V

switcher supplies core voltage (e.g., 1.5V nominal), and the

LDO operates independently (see

Power sequencing depends only on the normal switcher

intrinsic operation to control the buck high side MOSFET.

Power-up

point and the Buck High-Side MOSFET is on. In order not to

exceed the 2.1 V differential requirement between the I/O

(VIN) and the core (VOUT), the switcher must start up at

2.1 V or less and be able to maintain the 2.1 V or less

differential. The maximum slew rate for V

Power-Down

therefore, the buck high side MOSFET is on. In the case

where VOUT is falling faster than VIN, the buck high side

MOSFET attempts to maintain VOUT. In the case where VIN

is falling faster than VOUT, the buck high side MOSFET is

also on, and the VOUT load capacitor is discharged through

the buck high side MOSFET to VIN. Thus, provided VIN does

not fall too fast, the core voltage (VOUT) does not exceed the

I/O voltage (VIN) by more than a maximum of 0.4V.

Shorted Load

4. VOUT < LDO + 2.0 V, cancel (2)

5. VOUT < LDO - 0.2V, turn off LDO. The LDO can be

6. VOUT < LDO - 0.3V, turn on the 1.5

7. VOUT < LDO - 0.2 V, cancel (6).

8. VOUT < LDO - 0.1V, cancel (5). Normal operation

1. VOUT shorted to ground. This causes the I/O voltage

2. VIN shorted to ground. Until the switcher load

3. VOUT shorted to supply. No load protection. 34701 is

The 3.3V supplies the microprocessor I/O voltage, the

When VIN is rising, initially VOUT is below the regulation

When VIN is falling, VOUT falls below the regulation point;

VOUT output voltage is less than 1.8V above the LDO

output voltage.

forced off. This occurs whenever the VOUT is less than

VLDO - 0.2V.

MOSFET. This occurs when the LDO output voltage

exceeds the VOUT output by more than 300mV.

resumes when VOUT > LDO - 0.1 V .

to exceed the core voltage by more than 2.1V. No load

protection.

capacitance is discharged, the core voltage exceeds

the I/O voltage by more than 0.4V. By the intrinsic

operation of the switcher, the load capacitor is

discharged rapidly through the buck high side

MOSFET to VIN.

protected by current limit and thermal shutdown.

Analog Integrated Circuit Device Data

Figure

Freescale Semiconductor

Ω

17, page 22).

LDO sink

is 1.0 V/ms.

KIT33701DWBEVB Freescale Semiconductor, KIT33701DWBEVB Datasheet - Page 24

KIT33701DWBEVB

Specifications of KIT33701DWBEVB

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