GI818-E3/93 - Vishay Presicion Group

GI810 thru GI818

Document Number 88628

12-Oct-05

Vishay General Semiconductor

www.vishay.com

DO-204AC (DO-15)

* Glass-plastic encapsulation

technique is covered by

Patent No. 3,996,602, and

brazed-lead assembly

by Patent No. 3,930,306

Glass Passivated Junction Fast Switching Rectifier

Major Ratings and Characteristics

IF(AV) 1.0 A

VRRM 50 V to 1000 V

IFSM 30 A

trr 750 ns

IR10 µA

VF1.2 V

Tj max. 175 °C

Features

• Superectifier structure for High Reliability

condition

• Cavity-free glass-passivated junction

• Fast switching for high efficiency

• Low leakage current

• High forward surge capability

• Solder Dip 260 °C, 40 seconds

Typical Applications

For general purpose of medium frequency rectifica-

tion

Mechanical Data

Case: DO-204AC, molded epoxy over glass body

Epoxy meets UL-94V-0 Flammability rating

Terminals: Matte tin plated leads, solderable per

J-STD-002B and JESD22-B102D

E3 suffix for commercial grade, HE3 suffix for high

reliability grade (AEC Q101 qualified)

Polarity: Color band denotes cathode end

Maximum Ratings

(TA = 25 °C unless otherwise noted)

Parameter Symbol GI810 GI811 GI812 GI814 GI816 GI817 GI818 Unit

Maximum repetitive peak reverse voltage VRRM 50 100 200 400 600 800 1000 V

Maximum RMS voltage VRMS 35 70 140 280 420 560 700 V

Maximum DC blocking voltage VDC 50 100 200 400 600 800 1000 V

Maximum average forward rectified current 0.375"

(9.5 mm) lead length at TA= 75 °C

IF(AV) 1.0 A

Peak forward surge current 8.3 ms single half sine-wave

superimposed on rated load

IFSM 30 A

Operating junction and storage temperature range TJ, TSTG - 65 to + 175 °C

www.vishay.com

Document Number 88628

12-Oct-05

GI810 thru GI818

Vishay General Semiconductor

Electrical Characteristics

(TA = 25 °C unless otherwise noted)

Thermal Characteristics

(TA = 25 °C unless otherwise noted)

Notes:

(1) Thermal resistance from junction to ambient at 0.375" (9.5 mm) lead length, P.C.B. mounted

Ratings and Characteristics Curves

(TA = 25 °C unless otherwise noted)

Parameter Test condition Symbol GI810 GI811 GI812 GI814 GI816 GI817 GI818 Unit

Maximum instantaneous

forward voltage

at 1.0 A VF 1.2 V

Maximum DC reverse current

at rated DC blocking voltage

TA= 25 °C

TA= 100 °C

IR 10

100

µA

Maximum reverse recovery

time

IF = 1.0 A, VR = 30 V,

di/dt = 50 A/µs

trr 750 ns

Typical junction capacitance at 4.0 V, 1 MHz CJ 25 pF

Parameter Symbol GI810 GI811 GI812 GI814 GI816 GI817 GI818 Unit

Typical thermal resistance (1) RθJA 45 °C/W

Figure 1. Forward Current Derating Curve

Ambient Temperature (°C)

Average Forward Current (A)

20 40 60 80100 120 140 160 180

0.2

0.4

0.6

0.8

1.0

0.375" (9.5mm) Lead Length

Resistiveor

Inductive Load

Figure 2. Maximum Non-repetitive Peak Forward Surge Current

Peak Forward Surge Current (A)

110 100

TA = 75 °C

8.3 ms Single Half Sine Wave

(JEDEC Method)

Number of Cycles at 60 Hz

GI810 thru GI818

Document Number 88628

12-Oct-05

Vishay General Semiconductor

www.vishay.com

Package outline dimensions in inches (millimeters)

Figure 3. Typical Instantaneous Forward Characteristics

Figure 4. Typical Reverse Characteristics

InstantaneousForward Voltage (V)

InstantaneousForward Current (A)

0.4 0.6 1.0 1.2 1.4 1.6

0.01

0.1

0.81.8

TJ = 25 °C

Pulse Width = 300 µs

1% Duty Cycle

Percent of Rated Peak Reverse Voltage (%)

20 60 80100

0.01

0.1

Instantaneous Reverse Current (µA)

TJ = 125 °C

TJ = 25 °C

TJ = 75 °C

Figure 5. Typical Junction Capacitance

Figure 6. Typical Transient Thermal Impedance

Reverse Voltage (V)

Junction Capacitance (pF)

110 100

100

TJ = 25 °C

f = 1.0 MHz

Vsig = 50mVp-p

t, Pulse Duration (sec.)

Transient Thermal Impedance ( °CW)

0.01 0.1 110 100

0.1

100

0.034 (0.86)

0.028 (0.71)

Dia.

0.140 (3.6)

0.104 (2.6)

Dia.

0.230 (5.8)

0.300 (7.6)

1.0 (25.4)

min.

1.0 (25.4)

min.

DO-204AC (DO-15)

Legal Disclaimer Notice

Vishay

Document Number: 91000 www.vishay.com

Revision: 08-Apr-05 1

Notice

Specifications of the products displayed herein are subject to change without notice. Vishay Intertechnology, Inc.,

or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies.

Information contained herein is intended to provide a product description only. No license, express or implied, by

estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Vishay's

terms and conditions of sale for such products, Vishay assumes no liability whatsoever, and disclaims any express

or implied warranty, relating to sale and/or use of Vishay products including liability or warranties relating to fitness

for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right.

The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications.

Customers using or selling these products for use in such applications do so at their own risk and agree to fully

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