PTD08D210W Datasheet, PDF(4/19 Page) Texas Instruments – DUAL 10-A OUTPUTS, 4.75-V to 14-V INPUT, NON-ISOLATED, DIGITAL POWERTRAIN™ MODULE

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PTD08D210W Datasheet, PDF (4/19 Pages) Texas Instruments – DUAL 10-A OUTPUTS, 4.75-V to 14-V INPUT, NON-ISOLATED, DIGITAL POWERTRAIN™ MODULE

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PTD08D210W

SLTS295B â DECEMBER 2009 â REVISED DECEMBER 2010

www.ti.com

ELECTRICAL CHARACTERISTICS

PTD08D210W

TA= 25Â°C, FSW= 750kHz, VI= 12 V, VO= 1.2 V, CI1= 330 ÂµF, CI2= 22 ÂµF ceramic, CO1= 47 ÂµF ceramic, CO2= 330 ÂµF, IO= IO(max),

single output (unless otherwise stated)

PARAMETER

VOADJ

Output current

Input voltage range

Output voltage adjust range

Efficiency

VOPP

VIH

VIL

VO Ripple (peak-to-peak)

Bias current

High-level input voltage

Low-level input voltage

PWM input

TEMP output

VOH

VOL

FAULT output

ILIM

IOUT output

External input capacitance

External output capacitance

TEST CONDITIONS

Over VO range

Over IO range

25Â°C, natural convection

IO = 10 A,

fs = 750 kHz

20-MHz bandwidth

PWM & SRE to AGND

VO = 3.3 V

VO = 2.5 V

VO = 1.8 V

VO = 1.5 V

VO = 1.2 V

VO = 1.0 V

Standby

SRE & PWM input levels

Frequency range

Pulse width limits

Range

Accuracy, -40Â°C â¤ TA â¤ 85Â°C

Slope

Offset, TA = 25Â°C

High-level output voltage, IFAULT = 4mA

Low-level output voltage, IFAULT = 4mA

Overcurrent threshold; Reset, followed by auto-recovery

Range

Gain, 3A â¤ IO â¤ 10A

Offset, IO = 0A, VO = 1.2V

Output Impedance

Nonceramic

Ceramic

Capacitance Value

Nonceramic

Ceramic

Equivalent series resistance (non-ceramic)

PTD08D210W

MIN

TYP

MAX

4.75

0.7

3.6 (1)

92.8%

91.4%

89.1%

87.7%

85.6%

84.0%

2.0

5.5

500 (1)

0.8

1000

-40

125

-5

720

2.7

3.3

0.6

15 (2)

0.15

3.5

188

200

212

0.3

0.76

22 (3)

330 (3)

330 (4) 5000(5)

47 (4)

1 (6)

UNIT

mVPP

kHz

Â°C

mV/Â°C

mV/A

kâ¦

ÂµF

mâ¦

(1) When operating at 12V input and 500kHz, VO is limited to â¤ 2.0V.

(2) The current limit threshold is the sum of IO and the peak inductor ripple current.

(3) A 22 ÂµF ceramic input capacitor is required for proper operation. An additional 330 ÂµF bulk capacitor rated for a minimum of 500mA rms

of ripple current is recommended. When operating at frequencies > 500kHz the 22 ÂµF ceramic capacitor is only recommended. Refer to

the UCD9240 controller datasheet and user interface for application specific capacitor specifications.

(4) A 47 ÂµF ceramic output capacitor is required for basic operation. An additional 330 ÂµF bulk capacitor is recommended for improved

transient response. Refer to the UCD9240 controller datasheet and user interface for application specific capacitor specifications.

(5) 5,000 ÂµF is the calculated maximum output capacitance given a 1V/msec output voltage rise time. Additional capacitance or increasing

the output voltage rise rate may trigger the overcurrent threshold at start-up. Refer to the UCD9240 controller datasheet and user

interface for application specific capacitor specifications.

(6) This is the minimum ESR for all non-ceramic output capacitance. Refer to the UCD9240 controller datasheet and user interface for

application specific capacitor specifications.

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