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TISPPBL3 데이터시트 PDF




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부품번호 TISPPBL3 기능
기능 DUAL FORWARD-CONDUCTING P-GATE THYRISTORS
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TISPPBL3 데이터시트, 핀배열, 회로
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TISPPBL3
DUAL FORWARD-CONDUCTING P-GATE THYRISTORS
FOR ERICSSON MICROELECTRONICS
SUBSCRIBER LINE INTERFACE CIRCUITS (SLIC)
TISPPBL3 Programmable Protector
Overvoltage Protection for listed SLICs
SLIC †§
TISPPBL3
PBL 3762A/2
PBL 3762A/4
PBL 3764A/4
PBL 3764A/6
PBL 3766
PBL 3766/6
PBL 3767
PBL 3767/6
PBL 3860A/1
PBL 3860A/6
PBL 386 10/2
PBL 386 11/2
PBL 386 14/2
PBL 386 15/2
PBL 386 20/2
PBL 386 21/2
PBL 386 30/2
PBL 386 40/2
PBL 386 50/2
PBL 386 61/2
PBL 386 65/2
PBL 387 10/1
§ See Applications Information for earlier SLIC types.
Rated for International Surge Wave Shapes
Wave Shape
2/10 µs
10/700 µs
10/1000 µs
Standard
GR-1089-CORE
ITU-T K.20, K.21, K.45
GR-1089-CORE
ITSP
A
100
40
30
D Package (Top View)
(Tip) K1
1
8 K1 (Tip)
(Gate) G
2
9 A (Ground)
NC 3
6 A (Ground)
(Ring) K2
4
5 K2 (Ring)
MD6XANA
NC - No internal connection
Terminal typical application names shown in
parenthesis
Device Symbol
K1
K1
A
G1,G2
A
K2 K2
Terminals K1, K2 and A correspond to the alternative
line designators of T, R and G or A, B and C. The
negative protection voltage is controlled by the
voltage, VGG, applied to the G terminal.
SD6XAEA
High Voltage Capability Supports Battery Voltages
Down to -150 V
Specified 2/10 Impulse Limiting Voltage
- Voltage-Time Envelope Guaranteed
- Full -40 °C to 85 °C Temperature Range
Feed-Through Package Connections
- Minimizes Inductive Wiring Voltages
............................................ UL Recognized Components
How To Order
Device
Package
Carrier
For Standard
For Lead Free
Termination Finish Termination Finish
Order As
Order As
TISPPBL3 D (8-pin Small-Outline)
Embossed Tape Reeled
Tube
TISPPBL3DR
TISPPBL3D
TISPPBL3DR-S
TISPPBL3D-S
† Customers are advised to obtain the latest version of the relevant Ericsson Microelectronics SLIC information to verify, before placing orders,
that the information being relied on is current.
*RoHS Directive 2002/95/EC Jan 27 2003 including Annex
Ericsson is a trademark of Telefonaktiebolaget LM Ericsson.
OCTOBER 2000 - REVISED FEBRUARY 2005
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
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TISPPBL3 pdf, 반도체, 판매, 대치품
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TISPPBL3 Programmable Protector
Parameter Measurement Information
PRINCIPAL TERMINAL V-I CHARACTERISTIC
IFSP (= |ITSP|)
+i
IFSM (= |ITSM|)
IF
Quadrant I
Forward
Conduction
Characteristic
VF
GATE TRANSFER
CHARACTERISTIC
+iK
IF
VGK(BO)
VGG (Circuit VB)
-v
VD
IGT
ID
+v -iG
IGAF
+iG
I(BO)
V(BO)
IS
VS
IH
VT
IT
IGAT
IT
Quadrant III
Switching
Characteristic
ITSM
ITSP
-i
PM6XAIB
IK
IG
-iK
Figure 1. Principal Terminal And Gate Transfer Characteristics
10
5
0
VGG
PROTECTOR MAXIMUM LIMITING VOLTAGE
vs
TIME
1 µs
10 ms
MAX VFRM = 8 V
1 µs
VGG = VB
Time
VGG -10
VGG -20
VGG -3
DataSheet4 U .com
MAX V(BO) = VGG -20 V
PM6XALC
Figure 2. Transient Limits For TISPPBL3 2/10 Impulse Limiting Voltage
OCTOBER 2000 - REVISED FEBRUARY 2005
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.

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TISPPBL3 Programmable Protector
APPLICATIONS INFORMATION
TISPPBL3 Limiting Voltages
Figure 3 shows the basic test circuit used for the measurement of impulse limiting voltage. During the impulse, the high levels of electrical
energy and rapid rates of change cause electrical noise to be induced or conducted into the measurement system. It is possible for the
electrical noise voltage to be many times the wanted signal voltage. Elaborate wiring and measurement techniques were used to reduce the
noise voltage to less than 2 V peak to peak.
A Keytek ECAT E-Class series 100 with an E505 surge network was used for testing. The E505 produces a 2/10 voltage impulse. This
particular waveform was used as it has the fastest rate of current rise (di/dt) of the rated lightning surge waveforms. This maximizes the
measured limiting voltage. Initially, the 2/10 wavefront current rises at 60 A/µs; this rate then reduces as the peak current is approached.
A large number of devices from different production runs were measured in the test circuit of Figure 3 over the rated temperature range.
Statistical techniques were used to estimate the population 99.997% level (equal to 30 ppm) performance limits.
SLIC Protection Requirements
This clause discusses the voltage withstand capabilities of the various Ericsson Microelectronics SLIC groups and compares these to the
TISPPBL3 protector parameters. The examples provided are intended to provide designers information on how the TISPPBL3 protector and
specific SLICs work together. Designers should always follow the circuit design recommendations contained in the latest edition of an SLIC
data sheet.
Temperature Range
Some SLICs are rated for 0 °C to 70 °C operation, others for -40 °C to 85 °C operation. The TISPPBL3 protector is specified for -40 °C to
85 °C operation and covers both temperature ranges.
Normal Operation
Depending on the SLIC type, the maximum SLIC supply voltage rating (VBat) will be -70 V, -80 V or -85 V. The -160 V rating of the TISPPBL3
gate-cathode (VGKRM) exceeds the highest SLIC voltage rating. To restore normal operation after the TISPPBL3 has switched on, the
minimum switch-off current (holding current IH) needed is equal to the maximum SLIC short circuit current to ground (d.c. line current together
with the maximum longitudinal current).
Maximum TIPX and RINGX Terminal Ratings
The withstand levels of an SLIC line drive amplifier TIPX and RINGX can be expressed in terms of maximum voltage for certain time periods.
The negative voltage rating can be specified in two ways; relative to ground or relative to the SLIC negative supply voltage (VBat).
The TIPX or RINGX voltage withstand levels for the current range of Ericsson SLICs falls into three groups, see Figure 7. The first group,
headed by the PBL 3762A/2 SLIC, has a positive polarity d.c. withstand of +2 V. For 10 ms, the output can withstand a voltage of +5 V. For
1 µs, the output can withstand a voltage of +10 V. For 250 ns, the output is able to withstand a voltage of +15 V.
In the negative polarity, the output can withstand VBat continuously. For 10 ms, the output can withstand a voltage of VBat - 20 V. For 1 µs, the
output can withstand a voltage of VBat - 40 V. For 250 ns, the output is able to withstand a voltage of VBat -70 V.
The second group, headed by the PBL 3766 SLIC, has a positive polarity d.c. withstand of +0.5 V. For 10 ms, 1 µs and 250 ns the withstand
voltage is the same as the PBL 3762A/2 group. In the negative polarity, the withstand voltage of the PBL 3766 group is the same as the
PBL 3762A/2 group.
OCTOBER 2000 - REVISED FEBRUARY 2005
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
DataSheet4 U .com

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