TISP6NTP2C-R6-S【PDF 5/7 页】SURGE PROTECTOR QUAD PROG 90A

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TISP6NTP2C High Voltage Ringing SLIC Protector

APPLICATIONS INFORMATION

SLIC Protection

The generation of POTS lines at the customer premise normally uses a ringing SLIC. Although the lines are short, a central office ringing

voltage level is often required for fax machine operation. High voltage SLICs are now available that can produce adequate ringing voltage (see

table). The TISP6NTP2C has been designed to work with these SLICs which use battery voltages, V BATH , down to -150 V. Figure 2 shows a

typical example with one TISP6NTP2C protecting two SLICs.

The table below shows some details of HV SLICs using multiple negative supply rails.

Manufacturer

SLIC Series

SLIC #

Data Sheet Issue

INFINEON?

SLIC-P?

PEB 4266

14/02/2001

ISLIC??

79R241

-/08/2000

LEGERITY??

79R101

-/07/2000

79R100

-/07/2000

Unit

Short Circuit Current

V BATH max.

V BATL max.

AC Ringing for:

Crest Factor

V BATH

V BATR

110

-155

-150

85

1.4

-70

-150

150

-104

-104

45?

1.4

-90

-36

150

-104

V BATH

50?

1.4

-99

-24

150

-104

V BATH

55?

1.25

-99

-24

mA

V

V

V rms

V

V

R or T Overshoot < 250 ns

Line Feed Resistance

20 + 30

-15

50

15

-20

50

12

-20

50

12

V

?

? Assumes -20 V battery voltage during ringing.

? Legerity, the Legerity logo and ISLIC are the trademarks of Legerity, Inc.

Other product names used in this publication are for identification purposes only and may be trademarks of their respective

companies .

ISDN Protection

For voltage feed protection, the cathodes of an TISP6NTP2C thyristors are connected to the four conductors to be protected (see Figure 3).

Each gate is connected to the appropriate negative voltage feed. The anode of the TISP6NTP2C is connected to the system common.

Positive overvoltages are clipped to common by forward conduction of the TISP6NTP2C antiparallel diode. Negative overvoltages are initially

clipped close to the negative supply by emitter follower action of the TISP6NTP2C buffer transistor. If sufficient clipping current flows, the

TISP6NTP2C thyristor will regenerate and switch into a low voltage on-state condition. As the negative overvoltage subsides, the high holding

current of the TISP6NTP2C prevents d.c. latchup.

Voltage Stress Levels

Figure 4 shows the protector electrodes. The package terminal designated gate, G, is the transistor base, B, electrode connection and so is

marked as B (G). The following junctions are subject to voltage stress: Transistor EB and CB, SCR AK (off state) and the antiparallel diode

(reverse blocking). This clause covers the necessary testing to ensure the junctions are good.

Testing transistor CB and EB: The maximum voltage stress level for the TISP6NTP2C is V BATH with the addition of the short term antiparallel

diode voltage overshoot, V FRM . The current flowing out of the G terminal is measured at V BATH plus V FRM . The SCR K terminal is shorted to the

common (0 V) for this test (see Figure 4). The measured current, I GKS , is the sum of the junction currents I CB and I EB .

Testing transistor CB, SCR AK off state and diode reverse blocking: The highest AK voltage occurs during the overshoot period of the

protector. To make sure that the SCR and diode blocking junctions do not break down during this period, a d.c. test for off-state current, I D ,

can be applied at the overshoot voltage value. To avoid transistor CB current amplification by the transistor gain, the transistor base-emitter is

shorted during this test (see Figure 5).

Summary: Two tests are need to verify the protector junctions. Maximum current values for I GKS and I D are required at the specified applied

voltage conditions.

MARCH 2002 – REVISED JULY 2008

Specifications are subject to change without notice.

Customers should verify actual device performance in their specific applications.

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