PAGE 1
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
AXIAL LEAD BI-DIRECTIONAL THYRISTOR SURGE PROTECTOR DEVICE
FEATURES
• Protects by limiting voltages and shunting surge currents away from sensitive circuits
• Designed for telecommunications applications such as line cards, modems, PBX, FAX,
LAN,VHDSL
• Helps meet standards such as GR1089, ITU K.20, IEC950, UL1459&50, FCC part 68
• Low capacitance, High surge (A, B, C rating available), precise voltage limiting, Long life
SUMMARY ELECTRICAL CHARACTERISTICS
DO-201AE
rebmuNtraP
evititepeRdetaR etatS-ffOkaeP egatloV
revokaerB egatloV etatS-nO egatloV
evititepeR etatS-ffOkaeP tnerruC
revokaerB tnerruC gnidloH tenrruC ecnaticapaCetatS-ffO Vm51=caV,zHM1=f( RMS)
.xaM .xaM .xaM .xaM .xaM .niM .pyT .xaM .pyT .xaM
VDRM VBO I@ BO VTA1@ IDRM IBO IHCOV0@
cd
COV05@
cd
V V V µAAm Am Fp Fp
C850PST 85 77 5 5 008 051 58 501 53 34
C560PST56885 5 008051081014304
C570PST 57 89 5 5 008 051 87 59 03 73
C090PST0903155 00805107083243
C021PST 021 061 5 5 008 051 36 97 02 92
C041PST04108155 00805116879182
C061PST 061 022 5 5 008 051 85 57 91 72
C091PST09106255 00805175179162
C022PST 022 003 5 5 008 051 75 17 81 62
C572PST57205355 00805165078152
C023PST 023 004 5 5 008 051 65 07 71 42
setoN)3,1()6,5,3()3()3()3()3,2()3()3()3()3(
NOTES:
1. Specific VDRM values are available by request.
2. Specific IH values are available by request.
3. All ratings and characteristics are at 25 °C unless otherwise specified.
4. VDRM applies for the life of the device. IDRM will be in spec during and following operation of the device.
5. VBO1 is at 100V/msec, ISC =10Apk, VOC=1KVpk, 10/1000 Waveform
6. VBO2 is at f = 60 Hz, ISC = 1 A(RMS), Vac = 1KV(RMS), RL = 1 KΩ, 1/2 AC cycle
PAGE 2
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
SELECTION GUIDE
Follow these steps to select the proper Thyristor surge protector for your application:
1. Define the operating parameters for the circuit:
• Ambient operating temperature range
• Maximum telephone line operating current (highest battery and shortest copper loop)
• Maximum operating voltage: (Maximum DC bias + peak ringing voltage)
• Maximum surge current
• System voltage damage threshold
• Select device with an off-state voltage rating (VDRM) above the maximum operating voltage at the minimum operating temperature.
3. Select surge current ratings (IPPS and ITSM) ≥ those which the application must withstand.
4. Verify that the minimum holding current of the device at the maximum ambient temperature is above the maximum dc current of the
system.
5. Verify that the maximum breakover voltage of the device is below the system damage threshold.
6. Verify that the circuit's ambient operating temperatures are within the device's operating temperature range.
7. Verify that the device's dimensions fit the application's space considerations.
8. Independently evaluate and test the suitability and performance of the device in the application
gnitaR tnerruCesluPkaePevititepeR-noN kaePevititepeR-noN tnerruCegruSetatS-nO
lobmyS I PPS ITSM
evaWtnerruCtiucriC-trohS01/2 µs02/8 µs061/01 µs013/5 µs065/01 µs0001/01 µs
A06
evaWegatloVtiucriC-nepO 01/2 µs 05/2.1 µs 061/01 µs 007/01 µs 065/01 µs 0001/01 µs
eulaV A005A053A002A051A521A001
setoN )6,5,4,2,1( )4,3,2,1(
MAXIMUM SURGE RATINGS (TJ = 25 ºC UNLESS OTHERWISE NOTED)
Notes:
1. Thermal accumulation between successive surge tests is
not allowed.
2. The device under test initially must be in thermal
equilibrium with TJ = 25 °C.
3. Test at 1 cycle, 60 Hz.
4. Surge ratings are non-repetitive because instantaneous
junction temperatures may exceed the maximum rated TJ.
Nevertheless, devices will survive many surge applications
without degradation. Surge capability will not degrade over
a device's typical operating life.
5. Adjust the surge generator for optimum current-wave
accuracy when both voltage and current wave
specifications cannot be exactly met. The current wave is
more important than the voltage wave for accurate surge
evaluation.
6. The waveform is defined as A/B ms where:
A: (Virtual front time) = 1.25 X Rise time = 1.25 X (Tb - Ta)
B (Duration time to 50% level of Ipps) = T1 - T0
0%
20%
40%
60%
80%
100%
Time
% Ipps
TbTa T1To
PAGE 3
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
gnitaR lobmyS eulaV tinU
egnaRerutarepmeTnoitcnuJegarotS TSTG 051ot05-
O
C
egnaRerutarepmeTnoitcnuJgnitarepOT
J051ot04-
O
C
egnaRerutarepmeTtneibmAgnitarepO Ta56ot04-
O
C
Notes:
PCB board mounted on minimum foot print.
MAXIMUM THERMAL RATINGS
citsiretcarahC lobmyS eulaV tinU
TsdaeLotnoitcnuJecnatsiseRlamrehT
L
ottnecajdabatno .sezisdaplacitnediotderedlossdaelhtoB.citsalp R
θLJ
02.xaM
O
W/C
THERMAL CHARACTERISTICS
Notes:
The junction to lead thermal resistance represents a minimum limiting value with both leads soldered to a large near-infinite heatsink. The
junction to ambient thermal resistance depends strongly on board mounting conditions and typically is 3 to 6 times higher than the junction
to lead resistance. The data shown is to be used as guideline values for preliminary engineering.
ELECTRICAL CHARACTERISTICS (TC = 25°C UNLESS OTHERWISE NOTED)
sretemaraP snoitidnoCtseT lobmyS .niM .xaM tinU
kaePevititepeR tnerruCetatS-ffO VDVdetar= DRM IDRM 5µA
tnerruCrevokaerB I,zH06=f SC V,smrA1= ca R,smrVK1= LK1= ΩelcycCA2/1, I OB 008 Am
1tnerruCgnidloH0001/01 µI,mrofevaws CS V,A01= CO R,V26= L004= ΩIH051Am
egatloVetatS-nO I T003=wT,A1= µeslup1,s VT5 V
Notes:
Specific IH values are available by request.
PAGE 4
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
citsiretcarahC lobmyS eulaV
VBO egatloVrevokaerB derusaemnwodkaerbtaroniecivedehtssorcaegatlovmumixaM esirfoetartnerrucdnaegatlovdeificepsarednu
IBO tnerruCrevokaerB V(egatlovrevokaerbehttagniwolftnerrucsuoenatnatsnI BO)
IHtnerruCgnidloH etats-noehtniecivedehtniatniamotderiuqertnerrucmuminiM
ITtnerrucetats-nO noitidnocetats-noehtniecivedehthguorhttnerruC
VTegatlovetats-nO deificepsatanoitidnocetats-noehtniecivedehtssorcaegatloV (tnerrucI
T)
VDRM egatloVetatS-ffOkaePevititepeRdetaR llagnidulcni,egatlovetats-ffoehtfoeulavsuoenatnatsnitsehgihehT tneisnartevititepernonllagnidulcxetubsegatlovtneisnartevititeper segatlov
IDRM tnerruCetatS-ffOkaePevititepeR noitacilppaehtmorfstlusertahttnerrucfoeulav)kaep(mumixamehT Vfo DRM
IPPS tnerruceslupkaePevititepeR-noN edutilpmadeificepsfotnerruceslupmikaepfoeulavmumixamdetaR ecivedehtotegamadtuohtiwdeilppaebyamtahtepahsevawdna tsetrednu
td/idtnerrucetats-nofoesirfoetarlacitirC dnatshtiwnacecivedehttahttnerrucfoesirfoetarehtfoeulavdetaR .egamadtuohtiw
td/vd egatloVetatS-ffOfoesiRfoetaRlacitirC Vwoleb(egatlovfoesirfoetarmumixamehT DRM esuactonlliwtaht)
.etats-noehtotetats-ffoehtmorfgnihctiws
VBO
VBR
VDRM
VT
IPPS
ITSM
IT
IBO
IH
IBR
IDRM
_V+V
_I
+I
PAGE 5
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
CAPACITANCE CHARACTERISTICS
F = 1 MHz, Vac = 15 mVrms
rebmuNtraP
ecnaticapaCetatS-ffO C
O
Fp
cdV0 cdV1 cdV2 cdV5 cdV05
.pyT .xaM .pyT .xaM .pyT .xaM .pyT .xaM .pyT .xaM
C850PST 58 501 57 09 96 38 06 07 53 34
C560PST081011768569765664304
C570PST 87 59 56 08 95 37 05 06 03 73
C090PST07088566257534053243
C021PST 36 97 25 06 74 85 93 54 02 92
C041PST16870585546563449182
C061PST 85 57 84 65 34 35 43 34 91 72
C091PST75177455249433249162
C022PST 75 17 74 55 24 94 33 24 81 62
C572PST65076455249423248152
C023PST 65 07 64 55 14 94 23 24 71 42
MECHANICAL DATA
DO-201AE Unit: inch ( mm )
.210(5.3)
.188(4.8)
.042(1.07)
.037(.94)
1.0(25.4)MIN. 1.0(25.4)MIN.
.375(9.5)
.285(7.2)
• Case: JEDEC DO-201AE molded plastic
• Terminals: Solder plated, solderable per MIL-STD-750,
Method 2026
• Polarity: Bi-directional
• Standard packaging: 52 mm tape
• Weight: 0.04 ounce, 1.1 gram
PAGE 6
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
DEVICE MARKING CODE
rebmuNtraP edoCgnikraM
C850PST C850PST
C560PSTC560PST
C570PST C570PST
C090PSTC090PST
C021PST C021PST
C041PSTC041PST
C061PST C061PST
C091PSTC091PST
C022PST C022PST
C572PSTC572PST
C023PST C023PST
ORDER & PACKING INFORMATION
eciveD gnikcaP yt'QredrO.niM sAredrO krameR
CxxxPST
leeR&epaT"31 scp000,4 CxxxPST gnikcaPdradnatS
kluBscp000,1B-CxxxPST
noitinummA scp000,3 B/T-CxxxPST
Marking code
PanJit logo
Last digit of calendar year
Y
1st line:
2nd line:
Weekly
WW
Production line
P
PEC
TSPP058C
YWWWP
PEC
PAGE 7
Ver: June 2001
PRELIMINARY
TSP058C - TSP320C
THYRISTOR
TSP058C - TSP320C
© Copyright PanjIt International Inc. 2001
All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.
The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may changed without notice. No liability will be
accepted by the publisher for any consequence of its use.
Publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights.
PanJit Internatioal Inc.
http://www.panjit.com.tw email: sales@panjit.com.tw
TYPICAL CAPACITANCE V.S. OFF-STATE VOLTAGE
f=1 MHZ v =15mV AC
dRMS
T=25 C
J
O
0.1 110 100
10
20
30
40
50
60
70
Capacitance (pF)
V Off-state Voltage (V)
D
TSP075SC
TSP120SC
TSP140SC
TSP190SC
TYPICAL CAPACITANCE V.S. RATED REPETITIVE OFF-STATE VOLTAGE
f=1 MHZ V =0VoltsDC
DT=25 C
J
O
v =15mV AC
dRMS
50 100 150 200 250 300 350
20
30
40
50
60
70
80
90
Cseriesdevice
Bseriesdevice
Aseriesdevice
Capacitance (pF)
V (V)
DRM
0 20 40 60 80 100 120 140
0.01
0.1
1
10
100
150
0.001
0.0001
I Off-State Current ( A)
D,
m
T(C)
J
O
TYPICAL OFF-STATE CURRENT V.S JUNCTION TEMPERATURE
TSP220SB
TSP220SB
TSP220SC
RATING AND CHARACTERISTIC CURVES
IMPORTANT NOTICE
This information is intended to unambiguously characterize the product in order to facilitate the customer's evaluation of the device in the
application. It will help the customer's technical experts determine that the device is compatible and interchangeable with similar devices
made by other vendors. The information in this data sheet is believed to be reliable and accurate. The specifications and information
herein are subject to change without notice. New products and improvements in products and their characterization are constantly in
process. This provides a superior performing and the highest value product. The factory should be consulted for the most recent informa-
tion and for any special characteristics not described or specified.
