TISP5150H3BJR-S Datasheet TISP5150H3BJR-S, TISP5115H3BJR-S, TISP5070H3BJR-S | P7-P9

Specifications are subject to change without notice.

Customers should verify actual device performance in their specific applications.

JANUARY 1998 - REVISED JANUARY 2007

Rating And Thermal Information

TISP5xxxH3BJ Overvoltage Protection Series

Figure 8.

Figure 9. Figure 10.

t - Current Duration - s

0·1 1 10 100 1000

TSM(t)

- Non-Repetitive Peak On-State Current - A

1.5

TI5HAC

GEN

= 600 Vrms, 50/60 Hz

GEN

= 1.4*V

GEN

TSM(t)

EIA/JESD51-2 ENVIRONMENT

EIA/JESD51-3 PCB

= 25 °C

TI5XAD

AMIN

- Minimum Ambient Temperature - °C

-35 -25 -15 -5 5 15 25-40 -30 -20 -10 0 10 20

Derating Factor

0.93

0.94

0.95

0.96

0.97

0.98

0.99

1.00

- Ambient Temperature - °C

-40-30-20-100 1020304050607080

Impulse Current - A

100

120

150

200

250

300

400

500

600

700

IEC 1.2/50, 8/20

ITU-T 10/700

FCC 10/560

BELLCORE 2/10

BELLCORE 10/1000

FCC 10/160

TC5XAA

NON-REPETITIVE PEAK ON-STATE CURRENT

CURRENT DURATION

IMPULSE RATING

AMBIENT TEMPERATURE

V DERATING FACTOR

MINIMUM AMBIENT TEMPERATURE

DRM

Specifications are subject to change without notice.

Customers should verify actual device performance in their specific applications.

JANUARY 1998 - REVISED JANUARY 2007

Deployment

APPLICATIONS INFORMATION

These devices are two terminal overvoltage protectors. They may be used either singly to limit the voltage between two points (Figure 11) or in

multiples to limit the voltage at several points in a circuit (Figure 12).

In Figure 11, the TISP5xxxH3BJ limits the maximum voltage of the negative supply to -V

(BO)

and +V

. This configuration can be used for

protecting circuits where the voltage polarity does not reverse in normal operation. In Figure 12, the two TISP5xxxH3BJ protectors, Th4 and

Th5, limit the maximum voltage of the SLIC (Subscriber Line Interface Circuit) outputs to -V

(BO)

and +V

. Ring and test protection is given by

protectors Th1, Th2 and Th3. Protectors Th1 and Th2 limit the maximum tip and ring wire voltages to the ±V

(BO)

of the individual protector.

Protector Th3 limits the maximum voltage between the two conductors to its ±V

(BO)

value. If the equipment being protected has all its

vulnerable components connected between the conductors and ground, then protector Th3 is not required.

TISP5xxxH3BJ Overvoltage Protection Series

Figure 12. Line Card SLIC Protection

TEST

RELAY

RING

RELAY

SLIC

RELAY

TEST

EQUIP-

MENT

RING

GENERATOR

S1a

S1b

R1a

R1b

RING

WIRE

TIP

WIRE

Th1

Th2

Th3

SLIC

PROTECTION

TISP5xxxH3BJ

RING/TEST

PROTECTION

OVER-

CURRENT

PROTECTION

S2a

S2b

S3a

S3b

BAT

AI4XAA

Th4

Th5

AI4XAC

SIGNAL

D.C.

R1a

R1b

TISP5xxxH3BJ

Figure 11. Power Supply Protection

Specifications are subject to change without notice.

Customers should verify actual device performance in their specific applications.

JANUARY 1998 - REVISED JANUARY 2007

The star-connection of three TISP5xxxH3BJ protectors gives a protection circuit which has a low differential capacitance to ground (Figure 13).

This example, a -100 V ISDN line is protected. In Figure 13, the circuit illustration A shows that protector Th1 will be forward biased as it is

connected to the most negative potential. The other two protectors, Th2 and Th3 will be reverse biased as protector Th1 will pull their common

connection to within 0.5 V of the negative voltage supply.

Illustration B shows the equivalent capacitances of the two reverse biased protectors (Th2 and Th3) as 29 pF each and the capacitance of the

forward biased protector (Th1) as 600 pF. Illustration C shows the delta equivalent of the star capacitances of illustration B. The protector

circuit differential capacitance will be 26 - 1 = 25 pF. In this circuit, the differential capacitance value cannot exceed the capacitance value of

the ground protector (Th3).

A bridge circuit can be used for low capacitance differential. Whatever the potential of the ring and tip conductors are in Figure 14, the array of

steering diodes, D1 through to D6, ensure that terminal 1 of protector Th1 is always positive with respect to terminal 2. The protection voltage

will be the sum of the protector Th1, V

(BO)

, and the forward voltage of the appropriate series diodes. It is important to select the correct

diodes. Diodes D3 through to D6 divert the currents from the ring and tip lines. Diodes D1 and D2 will carry the sum of the ring and tip currents

and so conduct twice the current of the other four diodes. The diodes need to be specified for forward recovery voltage, V

FRM

, under the

expected impulse conditions. (Some conventional a.c. rectifiers can produce as much as 70 V of forward recovery voltage, which would be an

extra 140 V added to the V

(BO)

of Th1). In principle the bridge circuit can be extended to protect more than two conductors by adding extra

legs to the bridge.

TISP5xxxH3BJ Overvoltage Protection Series

APPLICATIONS INFORMATION (CONTINUED)

AI4XAB

-99.5 V

Th1

Th2

Th3

SIGNAL

-99.5 V

0.5 V

600 pF

29 pF

26 pF

1 pF

26 pF

A) STAR-CONNECTED

U-INTERFACE

PROTECTOR

B) EQUIVALENT

TISP5150H3BJ

CAPACITANCES

C) DELTA EQUIVALENT

SHOWS 25 pF

LINE UNBALANCE

- 100 V - 100 V - 100 V

Figure 13. ISDN Low Capacitance U-Interface Protection

Th1

RING

AI5XAC

TIP

Figure 14. Low Capacitance Bridge Protection Circuit

P1-P3 P4-P6 P7-P9 P10-P11

TISP5150H3BJR-S

Mfr. #:

Buy TISP5150H3BJR-S

Manufacturer:

Bourns

Description:

Thyristor Surge Protection Devices (TSPD) Forward Conducting Unidirectional

Lifecycle:

New from this manufacturer.

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TISP5150H3BJR-S

TISP5150H3BJR-S

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