ISL6227EVAL1 Intersil, ISL6227EVAL1 Datasheet - Page 5

ISL6227EVAL1

Manufacturer Part Number

ISL6227EVAL1

Description

EVALUATION BOARD 1 ISL6227

Manufacturer

Intersil

Datasheets

1.ISL6227CAZ.pdf (27 pages)

2.ISL6227EVAL1.pdf (11 pages)

Specifications of ISL6227EVAL1

Main Purpose

Special Purpose DC/DC, DDR Memory Supply

Outputs And Type

2, Non-Isolated

Voltage - Output

0.9 ~ 5.5V

Voltage - Input

5 ~ 24V

Regulator Topology

Buck

Frequency - Switching

300kHz

Board Type

Fully Populated

Utilized Ic / Part

ISL6227

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Step 2: Connect load and measurement equipment

Step 3: Set control jumper as illustrated in Table 1 on

Step 4: Power up the EVAL board

2a. Connect load for VDDQ channel and measurement

2b. Connect load for VTT channel and measurement

2c. Connect measurement equipment for VREF

4a. Take the adjustable 24VDC power supply that is

4b. Turn on the 24VDC power supply.

4c. While reading the DVM, increase the output voltage

4d. Turn on the 5VDC power supply, connected with

4e. While reading the DVM, increase the output voltage

page 4.

– Connect the positive terminal (+) of the electronic

– Connect the positive terminal (+) of a DVM to the

load and the DVM to the VDDQ terminal J5.

Connect the negative terminal (-) of the electronic

load and the DVM to the GND terminal J7.

load and the DVM to the VTT terminal J6. Connect

the negative terminal (-) of the electronic load and

the DVM to the GND terminal J9.

V_REF terminal J8. Connect the negative terminal

(-) of the DVM to the GND terminal J10.

equipment

connected to the VIN terminals J2 and J3 and make

sure the output voltage is set to zero volts.

of the 24VDC power supply to 5VDC.

VCC.

of the 5VDC power supply to 5VDC.

Application Note 1067

NOTE: A 10 nF capacitor must be installed on to C21 position if JP4

is installed prior to JP3 to ensure proper start up. C21 is the soft start

capacitor for CH2, as shown in the schematics.

NOTE: Terminals J3 (EN1) and J4 (EN2) may be connected to a

pulse generator for controlled on/off operation and may be observed

with an oscilloscope. However, make sure the signal generator

enable voltage is no more than 5V VCC.

Step 5: Take initial measurements

Step 6: Vary operating conditions

Step 7: Power off

5a. Install the EN1 shunt jumper JP3 for CH1 (VDDQ).

5b. Install the EN2 shunt jumper JP4 for CH2 (VTT).

5c. The last action will bring LED indictor from RED to

5d. Read the DVM connected to the VDDQ

5e. Read the DVM connected to the VTT

5f. Read the DVM connected to the V_REF terminal J8.

6a. Adjust the 24V VIN Power Supply between

6b. Adjust the electronic load current level.

7a. Turn off the VCC power supply

7b. Turn off the VIN power supply

(The LED should become red at this point)

– The VDDQ and VTT DVM readings should stay at

– The voltage readings on VDDQ, VTT, and V_REF

the above reading range.

should be within the above reading range. The load

on VDDQ should be less than 5A with MOSFET

FDS6912 mounted in the original EVAL board

setup. The load on VTT should be less than 3A, and

the load on V_REF should be less than 10mA. A

resistor can be connected between J8 and J10 as a

load for V_REF. The resistor value should be

greater than 125 Ohm. If a larger current creating

MOSFET is used, the load on VDDQ can be higher

than 5A.

GREEN. And the PGOOD voltage on J11 should be

5V, equal to the VCC voltage.

terminal J5. It should show a value between

2.450V-2.550V

terminal J6. It should show a half the value of

VDDQ, between 1.225V-1.275V.

It should read half the value of VDDQ, between

1.225-1.275V.

5-24 VDC.

ISL6227EVAL1 Intersil, ISL6227EVAL1 Datasheet - Page 5

ISL6227EVAL1

Specifications of ISL6227EVAL1

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