IRUH330118BKB - International Rectifier

Radiation Hardended Ultra Low Dropout IRUH330118BP

Fixed Positive Linear Regulator +3.3VIN to +1.8VOUT @3.0A

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Features

nSilicon On Insulator (SOI) CMOS Regulator

IC, CMOS Latch-Up Immune,

Inherently Rad Hard

n Total Dose Capability up to 300Krads(Si)

(Condition A); Tested to 500Krad (Si)

nELDRS up to 100Krad(Si) (Condition D)

nSEU Immune up to LET = 80 MeV*cm2/mg

nSpace Level Screened

nFast Transient Response

nTimed Latch-Off Over-Current Protection

nInternal Thermal Protection

nOn/Off Control via Shutdown Pin, Power

Sequencing Easily Implemented

nIsolated Hermetic MO-078AA Package

Ensures Higher Reliability

nThis part is also available in 8 Lead Flat pack

Package as IRUH330118AK / RUH330118AP

The IRUH330118 is a space qualified, ultra low dropout

linear regulator designed specifically for applications

requiring high reliability, low noise and radiation hardness.

01/17/11

Description

IRUH330118BK

mum

ngs

Parameter S

mbol Min. Max. Units

Power Dissipation @ TC = 125°C PD-25W

Maximum Output Current @ Maximum

Power Dissipation with no Derating

Non-Operating Input Voltage VIN -0.3 +8.0

Operating Input Voltage VIN 2.9 6.4

Ground GND -0.3 0.3

Shutdown Pin Voltage VSHDN -0.3 VIN + 0.3

Output Pin Voltage VOUT -0.3 VIN + 0.3

Operating Case Temperature Range TO-55 +140

Storage Temperature Range TS-65 +150

Maximmum Junction Temperature TJ -+150

Lead Temperature (Soldering 10sec) TL -+300

Pass Transistor Thermal Resistance, Junction to Case RTHJC -1.0°C/W

°C

IOA- See Fig 4

Product

ummary

Part Number I

OUT

IRUH330118BK

IRUH330118BP

3.0A 3.3V 1.8V

MO-078AA

PD-97591A

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IRUH330118BP

Notes:

 Connected as shown in Fig.1 and measured at the junction of VOUT and VSENSE Pins.

 Under normal closed-loop operation. Guaranteed by design. Not tested in production.

Electrical Characteristics

Pre-Radiation @T

= 25°C, V

= 3.3V

(Unless Otherwise Specified)

Parameter Test Conditions Symbol Min. Typ. Max. Units

2.8V ≤ VIN ≤ 3.8V, 50mA ≤ IOUT ≤ 3.0A 1.773 1.8 1.827

2.8V ≤ VIN ≤ 3.8V, 50mA ≤ IOUT ≤ 3.0A,

Output Voltage

-55°C to +125°C VOUT V

2.8V ≤ VIN ≤ 3.8V, 50mA ≤ IOUT ≤ 3.0A,

Post -Rad

Over-Current Latching, -55°C to +125°C,

Post -Rad

Over-Current Time-to-Latch IO > ILATCH tLATCH -10 - ms

Maximum Shutdown Temp.

TLATCH 125 140 - °C

F= 120Hz, IO = 50mA, -55°C to +125°C 65 - -

F= 120Hz, IO = 50mA, Post -Rad 40 - -

VSENSE Pin Current

-55°C to +125°C ISENSE -1.6-mA

Minimum SHDN Pin "On" ISOURCE = 200µA, -55°C to +125°C

Threshold Voltage Post -Rad

Maximum SHDN Pin "Off" ISOURCE = 200µA, -55°C to +125°C

Threshold Voltage Post -Rad

RLOAD = 36 Ohms, VSHDN = 3.3V

-55°C to +125°C, Post-Rad

SHDN Pin Leakage Current

VSHDN = 3.3V, -55°C to +125°C,Post-Rad ISHDN -10 - 10 µA

VSHDN = 0.4V -98 - -56

SHDN Pin Pull-Up Current

VSHDN = 0.4V, -55°C to +125°C ISHDN -140 - -30 µA

VSHDN = 0.4V, Post-Rad -98 - -56

ower

eset

res

Sweep VIN and Measure Output VT-POR -1.7-V

No Load - - 15

Full Load - - 90

V Output Voltage at Shutdown VOUT -0.1 - 0.1

VSHDN 1.2 - - V

VSHDN --0.8

Current Limit

Ripple Rejection

PSRR dB

ILATCH 3.5 - -

IQmA Quiescent Current

1.746 1.8 1.854

1.737 1.8 1.836

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IRUH330118BK

IRUH330118BP

Notes:

International Rectifier does not currently have a DSCC certified Radation Hardness Assurance Program.

Notes:

 Tested to 500Krad (Si).

 See Fig. 5.

Space Level Screening Requirements

TEST/INSPECTION SCREENING LEVEL MIL-STD-883

SPACE METHOD

Nondestructive Bond Pull 100% 2023

Internal Visual 100% 2017

Seal 100% 1014

Temperature Cycle 100% 1010

Constant Acceleration 100% 2001

Mechanical Shock 100% 2002

PIND 100% 2020

Pre Burn-In-Electrical 100%

Burn-In 100% 1015

Final Electrical 100%

Radiographic 100% 2012

External Visual 100% 2009

Radiation Performance Characteristics

Test Conditions Min T

pUnit

MIL-STD-883, Method 1019 (Condition A)

Operating Bias applied during exposure

Minimum Rated Load, Vin = 6.4V

MIL-STD-883, Method 1019 (Condition D)

Total Ionizing Dose (Gamma) (ELDRS) Operating Bias applied during 100

exposure Minimum Rated Load, Vin = 6.4V

Single Event effects Heavy Ions (LET)

SEU, SEL, SEGR, SEB Operating Bias applied during exposure

under varying operating conditions

300 Total Ionizing Dose (Gamma)

Neutron Fluence MIL-STD-883, Method 1017

Krads (Si)500

1.0e11

See

Neutrons/cm2

Krads (Si)

MeV*cm2/mg

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IRUH330118BK

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Application Information

IRUH3301xxxx

0.1uF and 1uF

Ceramic;

Two 100uF

Low ESR

Tantalum

VIN

GND

SHDN

VSENSE

VOUT

0.1uF and 1uF

Ceramic;

Two 100uF

Low ESR

Tantalum

Input

Voltage

Output

Voltage

Fig. 1. Typical Regulator Circuit; Note the SHDN Pin is hardwired in the “ON” position.

The VSENSE Pin is connected as noted in the “General Layout Rules” section.

Over-Current & Over-Temperature Protection

The IRUH3301 series provides over-current protection by means of a timed latch function. Drive

current to the internal PNP pass transistor is limited by an internal resistor (Rb in Fig. 3) between

the base of the transistor and the control IC drive FET. If an over-current condition forces the

voltage across this resistor to exceed 0.5V (nom), the latch feature will be triggered. The time-to-

latch (tLATCH) is nominally 10ms. If the over-current condition exists for less than tLATCH , the latch

will not be set. If the latch is set the drive current to the PNP pass transistor will be disabled. The

latch will remain set until one of the following actions occur:

1. The SHDN Pin voltage is brought above 1.2V and then lowered below 0.8V.

2. The VIN Pin voltage is lowered below 1.7V.

If the junction temperature of the regulator IC exceeds 140°C nominal, the thermal shutdown circuit

will set the internal latch and disable the drive current to the PNP pass transistor as described

above. After the junction temperature falls below a nominal 125°C, the latch can be reset using

either of the actions described above.

Under-Voltage Lock-Out

The under-voltage lock-out (UVLO) function prevents operation when VIN is less than 1.7V

(nominal). There is a nominal 100mV hysteresis about this point.

Input Voltage Range

Shutdown (SHDN)

The regulator can be shutdown by applying a voltage of >1.2V to the SHDN Pin. The regulator will

restart when the SHDN Pin is pulled below the shutdown threshold of 0.8V. If the remote shutdown

feature is not required, the SHDN Pin should be connected to GND.

The device functions fully when VIN is greater than 2.8V. It enters into under-voltage lock-out at VIN

< 1.7V (nominal). When 1.7V (nominal) < VIN < 2.8V, VOUT will track VIN and overshoot may occur.

A larger output capacitor should be used to slow down the VOUT rise rate for slow VIN ramp

applications.

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Input Capacitance

Input bypass capacitors: Two (0.1µF and 1µF) ceramics and two 100µF low ESR tantalums (AVX

TPS or equivalent), placed very close to the VIN Pin are required for proper operation. When the

input voltage supply capacitance is more than 4 inches from the device, additional input

capacitance is recommended. Larger input capacitor values will improve ripple rejection further

improving the integrity of the output voltage.

Output Capacitance

Output bypass capacitors: Two (0.1µF and 1µF) ceramics and two 100µF low ESR tantalums

(AVX TPS or equivalent) are required for loop stability. Faster transient performance can be

achieved with multiple additional 1µF ceramic capacitors. Ceramic capacitors greater than 1µF in

value are not recommended as they can cause stability issues.

Tantalum capacitor values larger than the suggested value are recommended to improve the

transient response under large load current changes. The upper capacitance value limit is

governed by the delayed over-current latch function of the regulator and can be as much as

10,000µF without causing the device to latch-off during start-up.

General Layout Rules

Low impedance connections between the regulator output and load are essential. Solid power and

ground planes are highly recommended. In those cases where the board impedances are not kept

very small, oscillations can occur due to the effect of parasitic series resistance and inductance

on loop bandwidth and phase margin.

The VSENSE Pin must be connected directly to the VOUT Pin using as short a trace as possible with

the connection inside the first bypass capacitor (see Fig. 2a).

Connect ceramic output capacitors directly across the VOUT and GND Pins with as wide a trace as

design rules allow (see Fig. 2a). Avoid the use of vias for these capacitors and avoid loops. Fig.2

shows the ceramic capacitors tied directly to the regulator output.

Fig. 2a. Layer 1 conductor.

Ground plane below layer 1

Fig. 2b. Layer 1 silkscreen

The input capacitors should be connected as close a possible to the VIN Pin.

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Fig. 3. Simplified Schematic Circuit

VSENSE

Error

Amp

GND

Thermal

Shutdown

VIN

SHDN

VREF

Input

Undervoltage

detect

Shutdown

& Over

Current

Latch

Disable

Latch

Timing

capacitor

VOUT

Maximum Output Current (A) with no derating at Maximum Dissipation

0.0

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

100 110 120 130 140 150 160 170

Mounting Surface Temperature (’C)

Output Current (A)

Fig. 4. Maximum Output Current versus Mounting Surface Temperature with no Derating at Maximum

Dissipation

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IRUH330118BK

IRUH330118BP

VOut

-0.500%

-0.250%

0.000%

0.250%

0.500%

1 10 100 1000 10000 100000

Total Dose (Rad (Si))

Delta-VOut (%)

ELDRS

TID

Fig. 5. Change in Output Voltage vs. Total Ionizing Dose Radiation Exposure at Both High and Low Dose Rates

Fig. 6. Typical Power Supply Ripple Rejection at 100mA and 1.6A using recommended layout

and capacitors. Results above 10KHz are influenced by testing setup and layout.

PSRR (Typical)

100

0.1 1 10 100 1000

Freq (KHz)

PSRR (dB)

Recomended Setup without Part Iout=100mA & 1.6A, 1.8Vout, 3.5Vin

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Fig 7. Case Outline and Dimensions - MO-078AA (Lead Form Down)

Note:

1) All dimensions are in inches

Note:

1) All dimensions are in inches

Fig 8. Case Outline and Dimensions - MO-078AA (Lead Form Up)

Warning: This Product contains BeO

Pin Assi

nment

Pin # Pin Description

1VIN

2GND

3VOUT

4SHUTDOWN

SENSE

Pin Assi

nment

Pin # Pin Description

1VIN

2GND

3VOUT

4SHUTDOWN

SENSE

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Part Numbering Nomenclature

IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105

IR LEOMINSTER : 205 Crawford St., Leominster, Massachusetts 01453, USA Tel: (978) 534-5776

TAC Fax: (310) 252-7903

Visit us at www.irf.com for sales contact information.

Data and specifications subject to change without notice. 01/2011

IR UH3 301 18 B K

Linear Regulator

U = Ultra Low Dropout Regulator

Radiation Hardening

Blank = No Rad Tolerance

H3 = 300 Krads

Device indicator

301 = 3 Amp Positive Regulator

Output Voltage

18 = 1.8V

25 = 2.5V

33 = 3.3V

A1 = Adjustable Optimized for 3.3 V Input

A2 = Adjustable Optimized for 5.0V Input

Lead Form Options

A = Lead Form Down (Fig. 7)

B = Lead Form Up (Fig. 8)

Blank = Lead Trimmed (Fig. 9)

Screening Level

P = Unscreened . 25 deg C

Electrical Test Not for Qualification

H = Class H per MIL-PRF-38534

K = Class K per MIL-PRF-38534

Package Type

B = MO-078AA

Fig 9. Case Outline and Dimensions - MO-078AA (Lead Trimmed)

Note:

1) All dimensions are in inches

Warning: This Product contains BeO

Pin Assi

nment

Pin # Pin Description

1VIN

2GND

3VOUT

4 SHUTDOWN

SENSE