P0080SD Teccor Electronics, P0080SD Datasheet

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P0080SD

Manufacturer Part Number
P0080SD
Description
Manufacturer
Teccor Electronics
Datasheet

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Data Book
and Design Guide
TECCOR ELECTRONICS
1800 Hurd Drive
Irving, Texas 75038
United States of America
Phone: +1 972-580-7777
Fax: +1 972-550-1309
Web site: http://www.teccor.com
E-mail: sidactor.techsales@teccor.com
An Invensys company

Related parts for P0080SD

P0080SD Summary of contents

Page 1

... Data Book and Design Guide TECCOR ELECTRONICS 1800 Hurd Drive Irving, Texas 75038 United States of America Phone: +1 972-580-7777 Fax: +1 972-550-1309 Web site: http://www.teccor.com E-mail: sidactor.techsales@teccor.com An Invensys company ...

Page 2

...

Page 3

... All TeleLink fuses are recognized under UL file E191008 and are also listed for CSA marking by certificate LR 702828. Teccor Electronics reserves the right to make changes at any time in order to improve designs and to supply the best products possible. The information in this catalog has been carefully checked and is believed to be accurate and reliable ...

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NOTES ...

Page 5

... Product Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 Product Packages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 Part Number Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6 Description of Part Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8 Electrical Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10 Quality and Reliability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-11 Standard Terms and Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 1-1 http://www.teccor.com +1 972-580-7777 ...

Page 6

... Eliminate voltage overshoot caused by fast-rising transients • Are non-degenerative • Will not fatigue • Have low capacitance, making them ideal for high-speed transmission equipment http://www.teccor.com +1 972-580-7777 + DRM + DRM SIDACtor devices crowbar S ). Once this occurs, H © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 7

... CATV line amplifiers and power inserters • Sprinkler systems For more information regarding specific applications, design requirements, or surge suppression, please contact Teccor Electronics directly at +1 972-580-7777 or through our local area representative. Access Teccor’s web site at http://www.teccor.com or e-mail us at sidactor.techsales@teccor.com. ...

Page 8

... Surface Mount Packages Modified Modified DO-214AA DO-214AA MS-013 Six-pin ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Surface Mount (Fuse) ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ...

Page 9

... TO-92 ✓ ✓ ✓ © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Through-hole Packages Modified TO-220 TO-218 Hybrid SIP ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ...

Page 10

... B1101U_ B1101U_4 B1160C_ B1161U_ B1161U_4 B1200C_ B1201U_ B1201U_4 B2050C_ B3104U_ B3164U_ B3204U_ F0500T F1250T F1251T P0080E_ P0080S_ P0080SA MC P0080SC MC P0080SD P0080Z_ P0084U_ P0300E_ P0300S_ P0300SA MC P0300SC MC P0300SD P0300Z_ P0304U_ http://www.teccor.com +1 972-580-7777 Part Number Page P0602A_ 2-28 2-36 P0602AC MC 2-30 2-36 ...

Page 11

... P2353Z_ P2356U_ P2400AA61 P2500AA61 P2500S_ P2600E_ P2600EC MC P2600S_ P2600SC MC P2600SD P2600Z_ P2604U_ P2702A_ P2702AC MC P2702Z_ P2703A_ © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Page Part Number Page 2-22 P2703AC MC 2-34 2-24 P2703U_ 2-20 2-64 P2703Z_ 2-40 2-26 ...

Page 12

... I RATING (10x560 µ 100 A (10x560 µ 500 A (2x10 µ 1000 A (8x20 µ 3000 A (8x20 µs) PACKAGE TYPE A = TO–220 C = Three-leaded DO-214 E = TO– TO-218 S = DO–214 U = Six-pin SOIC Z = SIP © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 13

... The following illustration shows a description of a sample asymmetrical SIDACtor device part number. DEVICE TYPE A = Asymmetrical SIDACtor MEDIAN VOLTAGE RATING 1806 = 180 V and Three Matched SIDACtor chips © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 1806 U C ...

Page 14

... Peak Off-state Voltage — maximum voltage that can be applied while DRM maintaining off state V On-state Forward Voltage — maximum forward voltage measured at rated F on-state current V On-state Voltage — maximum voltage measured at rated on-state current T http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide DRM © 2002 Teccor Electronics ...

Page 15

... It is the responsibility of those in leadership roles to coach their staff and to reinforce these principles the responsibility of each individual employee to follow the spirit of this statement to ensure that we meet the primary policy — to ship quality products on time. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 16

... SUPPLIER'S OPTION, EITHER THE REPLACEMENT OF, REPAIR OF, OR ISSUANCE OF CREDIT TO BUYER'S ACCOUNT WITH SUPPLIER FOR ANY PRODUCTS WHICH ARE PROPERLY RETURNED BY BUYER DURING THE WARRANTY PERIOD. All returns must comply with the following conditions: © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide http://www ...

Page 17

... Supplier. (13) QUANTITIES: Any variation in quantities of electronic components, or other goods shipped over or under the quantities ordered (not to exceed 5%) shall constitute compliance with Buyer's order and the unit price will continue to apply. © 2002 Teccor Electronics ® SIDACtor ...

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NOTES ...

Page 19

... Battrax Quad Negative SLIC Protector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-58 CATVs CATV and HFC SIDACtor Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-60 High Surge Current SIDACtor Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-62 CATV Line Amplifiers/Power Inserters SIDACtor Device 2-64 TeleLink Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-66 Acronyms: © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide CATV Community Antenna TV HFC ...

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...

Page 21

... DO-214AA Package Symbolization Part Number Catalog Symbolized P0080SA P-8A P0080SA MC P-8AM P0080SB P-8B P0080SC P-8C P0080SD P-8D P0080SC MC P-8CM P0300SA P03A P0300SA MC P03AM P0300SB P03B P0300SC P03C P0300SD P03D P0300SC MC P03CM P0640SA P06A P0640SB P06B P0640SC P06C P0640SD P06D P0640SC MC P06CM ...

Page 22

... TSM 60 Hz di/dt Amps Amps Amps/µ 500 80 30 500 100 30 500 © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 23

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 24

... TSM 10x1000 µ Amps Amps 100 30 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt Amps/µs 500 ...

Page 25

... V V DRM V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide MicroCapacitance (MC) SC SIDACtor Device Parameter 100 + DRM Pulse Wave-form r d 2.0 1.8 1.6 1.4 1 ...

Page 26

... PP ) requirements are available upon request 10x160 µs 10x560 µs Amps Amps values for the Amps mAmps 800 2.2 50 800 2 TSM 10x1000 µ Amps Amps 45 20 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt Amps/µs 500 ...

Page 27

... V V DRM V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide MicroCapacitance (MC) SA SIDACtor Device Parameter 100 + DRM Pulse Wave-form r d 2.0 1.8 1.6 1.4 1 ...

Page 28

... SIDACtor devices are used to enable equipment to meet various regulatory requirements including GR 1089, ITU K.20, K.21 and K.45, IEC 60950, UL 60950, and TIA-968 (formerly known as FCC Part 68). Electrical Parameters Part V V DRM S Number * Volts Volts P0080SD ** 6 25 P0300SD ** 25 40 P0640SD ** 58 77 P0720SD ** 65 88 ...

Page 29

... Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide High Surge Current (D-rated) SIDACtor Device Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient ...

Page 30

... PP ) requirements are available upon request 10x160 µs 10x560 µs Amps Amps mAmps Amps mAmps Pins 1-3 800 1 120 800 1 120 TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 31

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 32

... Amps Amps 90 50 150 100 SIDACtor values are Amps mAmps pF 2.2 120 25 2.2 120 25 2.2 120 25 2.2 120 20 2.2 120 TSM 60 Hz di/dt Amps Amps Amps/µ 500 80 30 500 © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 33

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 34

... TSM 60 Hz di/dt Amps Amps Amps/µ 500 80 30 500 100 50 500 © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 35

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 36

... Amps Amps 200 150 SIDACtor values for MC devices Amps mAmps pF 2.2 150 60 2.2 150 50 2.2 150 40 2.2 150 TSM 60 Hz di/dt Amps Amps Amps/µs 100 50 500 © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 37

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 38

... TSM 60 Hz di/dt Amps Amps Amps/µ 500 80 30 500 100 50 500 © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 39

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 40

... TSM 60 Hz di/dt Amps Amps Amps/µ 500 80 30 500 100 50 500 © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 41

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 42

... mAmps Amps mAmps 800 2.2 120 800 2.2 150 TSM 10x1000 µ Amps Amps 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt Amps/µs 500 500 500 ...

Page 43

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 44

... TSM 5x320 µs 10x1000 µ Amps Amps Amps © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt Amps/µs 500 ...

Page 45

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 46

... TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 80 30 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 47

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 48

... TSM 60 Hz di/dt Amps Amps Amps/µs 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 49

... Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Two-chip MicroCapacitance (MC) SIDACtor Device Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM ...

Page 50

... TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 80 30 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 51

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 52

... TSM 10x1000 µ di/dt Amps Amps Amps/µs 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 53

... Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Balanced Three-chip MicroCapacitance (MC) SIDACtor Device Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 ...

Page 54

... Amps 90 50 150 100 200 150 Amps mAmps Pins 3-2, 6-5, 1-2, 4-5 2.2 120 30 2.2 120 TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 80 30 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 55

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 56

... Amps Amps 90 50 150 100 200 150 Amps mAmps 800 2.2 120 800 2.2 120 800 2.2 120 TSM 10x1000 µ Amps Amps 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt Amps/µs 500 500 500 ...

Page 57

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 58

... TSM 10x1000 µ Amps Amps 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Pins 1 di/dt Amps/µs 500 500 500 ...

Page 59

... DRM V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Waveform ...

Page 60

... TSM 10x1000 µ Amps Amps 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Pins 2-3, 3-4 110 di/dt Amps/µs 500 500 500 ...

Page 61

... DRM V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Waveform ...

Page 62

... TSM 10x1000 µ Amps Amps 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 100 110 di/dt Amps/µs 500 500 500 ...

Page 63

... DRM V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Waveform ...

Page 64

... Amps Amps 90 50 200 120 Amps mAmps 800 1 120 800 1 120 800 1 120 800 1 120 TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 65

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM Pulse Wave-form ...

Page 66

... 10x160 µs 10x560 µs Amps Amps DRM µAmps mAmps Amps mAmps 5 800 1 120 5 800 1 120 5 800 1 120 5 800 1 120 TSM 10x1000 µ Amps Amps Amps/µ © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt 500 ...

Page 67

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 68

... Amps Amps 90 50 200 120 DRM µAmps mAmps Amps mAmps 5 800 1 120 5 800 1 120 5 800 1 120 5 800 1 120 TSM 10x1000 µ Amps Amps Amps/µ 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt 500 500 ...

Page 69

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 70

... Designed using an REF | + |-1.2 V| while the REF Pin 1 (Line) Pin 2 (Ground mAmps Amps mAmps 100 1 100 100 1 160 100 1 200 TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 71

... Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient - DRM V S V-I Characteristics for Positive Battrax 2 ...

Page 72

... Amps Amps 90 50 200 120 DRM µAmps mAmps Amps mAmps 5 100 1 100 5 100 1 160 5 100 1 200 TSM 10x1000 µ Amps Amps Amps/µ 100 50 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide di/dt 500 500 ...

Page 73

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM Pulse Wave-form ...

Page 74

... Amps Amps 90 50 200 120 (and/or more REF mAmps Amps mAmps 100 1 100 100 1 160 100 1 200 TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 75

... Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Battrax Dual Positive/Negative SLIC Protector Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 ...

Page 76

... PP PP 10x160 µs 10x560 µs Amps Amps 90 50 200 120 mAmps Amps mAmps 100 1 100 100 1 160 100 1 200 TSM 10x1000 µ di/dt Amps Amps Amps/µ 500 100 50 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 77

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM DRM ...

Page 78

... PP ) requirements are available upon request 10x1000 µs Amps 250 mAmps Amps mAmps 800 2.2 50 800 2 TSM 60 Hz di/dt Amps Amps/µs 120 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Pins 1-3 200 150 ...

Page 79

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 DRM DRM ...

Page 80

... 10x1000 µs Amps 250 mAmps Amps mAmps 800 2 mAmps Amps mAmps 800 2.2 120 I TSM 60 Hz di/dt Amps Amps/µs 120 1000 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Pins 1 Pins 1-3 115 ...

Page 81

... V-I Characteristics ˚ -40 - 100 120 140 160 Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Parameter Operating Junction Temperature Range Storage Temperature Range Thermal Resistance: Junction to Ambient 100 + DRM DRM ...

Page 82

... PP ) requirements are available upon request TSM 8x20 µ Amps Amps 5000 400 Amps ** mAmps pF 2.2/25 50 750 2.2/25 50 750 di/dt Amps/µs 500 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide O ...

Page 83

... Junction Temperature (T Normalized V Change versus Junction Temperature S © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide CATV Line Amplifiers/Power Inserters SIDACtor Device Parameter Operating Junction Temperature Range Storage Temperature Range Maximum Case Temperature Thermal Resistance: Junction to Case ...

Page 84

... Rated Current 0.471 V 0.205 V 0.110 10x560 µs 10x1000 µs Amps Amps 45 35 115 100 115 100 Interrupting Rating MIN TYP Cold Resistance MIN MAX 0.420 W 0.640 W 0.107 W 0.150 W 0.050 W 0.100 W © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide MAX ...

Page 85

... Test Test 5 simulates a high impedance induction fault. For specific information, please contact Teccor Electronics. Second Level AC Power Fault Test for Non-Customer Premises Equipment Applied Voltage Test Notes: • Power fault tests equal or exceed the requirements of UL 60950 3rd edition. • Test 4 is intended to produce a maximum heating effect. Temperature readings can exceed 150 °C. ...

Page 86

... TeleLink Fuse 1000 800 700 600 500 400 300 200 100 .09 .08 .07 .06 .05 .04 .03 .02 .01 Time Current Curve http://www.teccor.com +1 972-580-7777 Current in Amperes ® SIDACtor © 2002 Teccor Electronics Data Book and Design Guide ...

Page 87

... During UL testing, the typical recorded heat rise for the F1250T at 2.2 A was 120 °C. Package Symbolization Marking F0500T © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 150 140 130 120 110 100 ...

Page 88

NOTES ...

Page 89

... SIDACtor devices are not the sole components required to pass applicable regulatory requirements such as UL 60950, GR 1089, or TIA-968 (formerly known as FCC Part 68), nor are these requirements specifically directed at SIDACtor devices. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 3-1 http://www ...

Page 90

...

Page 91

... Table 5.1, Surge Rating Correlation to Fuse Rating on page 5-8.) Note: For alternative line interface protection circuits, see "Regulatory Compliant Solutions" on page 4-34. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ) rating is sufficient to withstand the ...

Page 92

... Figure 3.2 Transformer Coupled Tip and Ring Interface F1250T Tip P3100SB or P3100EB Ring Figure 3.3 Modem Interface http://www.teccor.com +1 972-580-7777 F1250T Tip P3100SB or P3100EB Ring Relay Ring Detect SIDACtor To Protected Components Transmit / Receive + - - + Transmit/ Receive Circuitry © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 93

... P3100SB or P3100EB Figure 3.4 CPE Transistor Network Interface — Option 1 F1250T Tip Ring Ringer Figure 3.5 CPE Transistor Network Interface — Option 2 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Customer Premises Equipment (CPE) Hook Switch Dialer IC DTMF ...

Page 94

... Figure 3.6 Two-line CPE Interface http://www.teccor.com +1 972-580-7777 F1250T Tip P3100SB or P3100EB Ring Ring Detect Note: Different Ground References Shown. F1250T Tip P3100SB or P3100EB Ring Ring Detect Transistor Network Interface Transistor Network Interface © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 95

... RT to the COT at distances up to 12,000 feet. (Figure 3.7) Central Office Site ADSL transceiver unit ATU-C Digital Network Splitter PSTN Figure 3.7 ADSL Overview © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide High Speed Transmission Equipment ) rating is sufficient to withstand the PP Local Loop Remote Site ...

Page 96

... The signaling levels are a maximum of ±2.5 V while loop powering is typically under 190 V. (Figure 3.9) http://www.teccor.com +1 972-580-7777 P3500SC MC x DSL signal on a 150 V rms ringing signal superimposed SIDACtor ADSL chip set © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 97

... F1250T Tip Ring F1250T F1250T Tip Ring F1250T Figure 3.10 HDSL Protection © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide High Speed Transmission Equipment Remote Site HDSL transceiver unit 784 kbps Full-Duplex loop 784 kbps Full-Duplex loop < 12,000 ft, 200 kHz BW +2 ...

Page 98

... Figure 3.12 also shows interfaces not isolated from earth ground. http://www.teccor.com +1 972-580-7777 Terminal Non-ISDN Adapter Terminal T Network POTS TA Termination Layer 1 Terminal Equipment (ISDN NT1 Compliant Reference T NT2 PBX T Reference 4-Wire ISDN Terminal Reference, 4-Wire © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 99

... 145 V with a typical maximum current of 75 mA. (Figure 3.13) Central Office (CO) Switching MDF Central Office Terminal (COT) System VF Line Line 2 Figure 3.13 Pair Gain Overview © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ISDN S/T Interface F1250T TX P0640SC MC ISDN Transceiver F1250T RX P0640SC MC Power Source ...

Page 100

... P3100SC MC across Tip and Ring and a single F1250T on either Tip or Ring to satisfy metallic protection. http://www.teccor.com +1 972-580-7777 P0080SA Power Source F1250T Tip P1800SC MC P1800SC MC Ring F1250T © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 101

... chosen to reduce degradation of data rates. The voltage rating of the P1800SC MC was selected to ensure coordination with loop powering up to 150 V. The voltage rating of the P3100SC MC was selected to ensure coordination with POTS ringing and battery voltages. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 102

... V rms for protective circuitry, then maintained for one minute. The current between (a) and (b) shall not http://www.teccor.com +1 972-580-7777 Line Regenerator 6000 ft and Ring-1, E&M leads and auxiliary leads Line Regenerator © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide DRM ...

Page 103

... chosen to reduce degradation of data rates. The voltage rating of the P1800SC MC was selected to ensure loop powering up to 150 V. The voltage rating of the P0640SC MC was selected to ensure coordination with varying voltage signals. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide at any time ...

Page 104

... MURS160T3 is a surface mount equivalent. (Figure 3.18) Figure 3.18 T3 Protection Alternately, the advanced P0642SA exhibits very low capacitance and can be used as a stand-alone device. Figure 3.19 Alternate T3 Protection http://www.teccor.com +1 972-580-7777 F1250T D1 D2 P0640EC/ P0720EC/SC MC P0642SA © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 105

... Tip to Ground and Ring to Ground. However, for applications using relays such as an LCAS (Line Card Access Switch), consider the P1200S_ from Tip to Ground and the P2000S_ from Ring to Ground. © 2002 Teccor Electronics ® SIDACtor ...

Page 106

... The total circuit resistance is determined by TOTAL ) of the surge generator to the series resistance in front of S and R TIP = TOTAL = TIP RING = TIP = RING and the REF ) are used — one Tip to REF ). RING © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 107

... Figure 3.21 SLIC Protection for LCAS Figure 3.22 illustrates uses of asymmetrical SIDACtor protection for overvoltage conditions and the F1250T for overcurrent conditions. F1250T Tip Ring F1250T Figure 3.22 SLIC Asymmetrical Protection © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide P0641SC ...

Page 108

... F1250T Figure 3.24 SLIC Protection with Programmable Voltage SIDACtor Devices http://www.teccor.com +1 972-580-7777 P0721CA2 REF 0.1 µF B1XX0CC B1XX0CC 0.1µF -V REF ® SIDACtor ± REF 1N4935/ MUR120 Legerity Am79R79 1N4935/ MUR120 © 2002 Teccor Electronics Data Book and Design Guide ...

Page 109

... Ground, and the B1100CC shunts all negative voltages greater than |-V 20 Ω F0500T Tip P3100SA P3100SA Ring 20 Ω F0500T Figure 3.25 SLIC Protection with a Single Battrax Device © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide -1 Ground. REF -V REF R E EDF1BS L ...

Page 110

... Figure 3.27 and Figure 3.28 show circuits that use negative Battrax devices containing an internal diode for positive surge protection. This obviates using the discrete diodes shown in Figure 3.24. http://www.teccor.com +1 972-580-7777 R E EDF1BS B1160CC 0.1 µ EDF1BS ® SIDACtor Data Book and Design Guide REF © 2002 Teccor Electronics ...

Page 111

... T F1250T B1xx1U_ F1250T R Figure 3.27 SLIC Protection with a Dual Battrax Device Figure 3.28 SLIC Protection with a Single Battrax Quad Negative Device © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide -V REF 0.1 µF -V REF 4 F1250T 5 2 0.1 µF 6 F1250T ...

Page 112

... Figure 3.30 SLIC Protection with a Battrax Dual Positive/Negative device http://www.teccor.com +1 972-580-7777 +V REF -V REF 0.1 µF B2050C_ B2050C_ +V REF -V REF +V -V REF 0.1 µF B3104UC -V +V REF 0.1 µF B1xx0C_ SLIC B1xx0C_ REF 0.1 µF SLIC REF © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 113

... For ISDN protection, see "ISDN Circuit Protection" on page 3-10. • For T1/E1 protection, see "T1/E1 Circuit Protection" on page 3-14. • For Station Protection, see "Analog Line Cards" on page 3-17. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 114

... CATV power supply (90 V rating ( 3000 A. PP Figure 3.32 CATV Amplifier Diagram http://www.teccor.com +1 972-580-7777 Power Supply P1900ME well DRM Ö2), and the peak pulse current RMS CATV Amplifiers © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 115

... CATV networks. If so, the inductor should be designed to saturate quickly and withstand surges up to 200 V and 1000 A. An inductor with a core permeability of approximately 900 Wb/A·m and wound with 24-gauge wire to an inductance © 2002 Teccor Electronics ® SIDACtor ...

Page 116

... Coaxial Fuse Line Figure 3.35 CATV Station Protection http://www.teccor.com +1 972-580-7777 UL Approved Compensating Inductor P1400AD Protected Equipment © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 117

... Type B ringer superimposed on a POTS (plain old telephone service) battery. 150 V RMS © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ) of any device intended for use in primary protection DRM Ö ...

Page 118

... Thermal P6002AC Overload or P6002AD P6002AC or P6002AD 4 W Heat Coil Thermal Overload P3203AC P3203AC 4 W Heat Coil Voltage-only Protection Voltage and Sneak Current Protection Voltage-only Protection Voltage and Sneak Current Protection © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 119

... Likewise, Figure 3.39 illustrates a fuse selected because the amps rating is sufficient to withstand the lightning immunity tests of TIA-968, but low enough to pass UL power cross conditions. Tip Ring Figure 3.39 CPE Protection © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Premise Equipment Line ...

Page 120

... The line impedance helps ensure that the primary protector will begin to conduct while the secondary protector limits any of the let-through voltage to within the V http://www.teccor.com +1 972-580-7777 Ö 268 rating of the SIDACtor device greater DRM © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 121

... With both methods, consider the following designs when using a SIDACtor device to protect a thyristor: • the SIDACtor device < V DRM • SIDACtor device V • SIDACtor device must be placed behind the load © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide , the SIDACtor device turns on, producing a DRM Load 47 Ω ...

Page 122

... Figure 3.42 shows how a SIDACtor device is used to protect low voltage data line circuits. Figure 3.42 Data Line Protection http://www.teccor.com +1 972-580-7777 TXD P0080SA or P0300SA RXD P0080SA or P0300SA CTS P0080SA or P0300SA RS-232 I.C. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 123

... Note: MURS160T3 is an SMT equivalent of the MUR 1100E. Figure 3.43 10Base-T Metallic-only Protection Figure 3.44 shows an application requiring longitudinal protection. Figure 3.44 10Base-T Metallic and Longitudinal Protection © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide F0500T ...

Page 124

... Figure 3.45 100 Base-T Protection The P0642SA is a very low capacitance device that requires no compensating diodes. (Figure 3.46) Figure 3.46 100 Base-T Protection Without External Compensation http://www.teccor.com +1 972-580-7777 D1 D2 P0640 EA/ P0642SA ® SIDACtor © 2002 Teccor Electronics Data Book and Design Guide ...

Page 125

... UL 60950 3rd Edition (formerly UL 1950, 3rd edition 4-16 UL 497 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-24 UL 497A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-27 UL 497B . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-30 UL 497C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-32 Regulatory Compliant Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-34 Surge Waveforms for Various Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-37 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 4-1 http://www.teccor.com +1 972-580-7777 ...

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...

Page 127

... Under Test (EUT) may be expected to function — idle, transmit, receive, on-hook, off-hook, talking, dialing, ringing, and testing. Table 4.1 and Table 4.2 show test connections, and Figure 4.1 shows the connection appearances. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 1089– ...

Page 128

... Open Closed Closed Open Tip S2 Switch Unit Under Test Ring SIDACtor Four-wire Interface , the Generator with the other three 1 1 and Open Closed Closed Open Closed Open Associated Outside Plant Leads © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 129

... Alternatively, a surge generator of 1.2x50 µs open-circuit voltage waveform (8x20 µs short-circuit current waveform) per IEEE C62.41 may be used. The current shall be limited by the inclusion of a series 6 W resistor for Test 1 and resistor for Test 2, placed externally to the surge generator. © 2002 Teccor Electronics ® SIDACtor ...

Page 130

... V peak and 600 V rms using primary protectors, while the current will be limited by the current-carrying capacity of the 24-gauge wire. http://www.teccor.com +1 972-580-7777 Waveform Surge Current (µs) (A) 2x10 500 Repetitions Each Test Connections Polarity (Table 4.1, Figure 4. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 131

... For EUT containing secondary voltage limiting and current limiting protectors, tests are to be performed at the indicated voltage(s) and repeated at a reduced voltage and current just below the operating threshold of the secondary protectors. 2. Test 5 simulates a high impedance induction fault. For specific information, please contact Teccor Electronics. 3. Test conditions 6 through 9 are objective, not mandatory, requirements. ...

Page 132

... Conductor (A) (Note 2.2A at 600 V N Source Impedance RMS W 300 20 600 Test Connections Duration (Table 4.1, Figure 4.1) 15 min min A 15 min N/A Test Connections (Table 4.1, Figure 4.2) (Note 1) A © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 133

... To comply with the short circuit test, the EUT must function normally after the short-circuit condition is removed, and a fire hazard may not be present. The equipment shall not require manual intervention to restore service. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 134

... ITU K.20. Figure 4.4 shows the connection schematic for the power cross tests. Table 4.12 and Table 4.13 show the same test conditions respectively for ITU K.21. http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 135

... One-minute rest between repetitions ** This test is not conducted if primary protection is used. Surge Generator Surge Generator Figure 4.3 Connection Appearances © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Current (5x310 µs) Basic/Enhanced (A) Repetitions * 25/37.5 ±5 100/100 ± ...

Page 136

... Basic/Enhanced 5 None A/A 5 None A/A 1 None B/B B/B B/B B/B B/A B/A B/A B/B Primary Acceptance Repetitions * Protection ±5 None ±5 Installed if used ±5 None ±5 Installed if used © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Criteria A *** A A *** A ...

Page 137

... V / 600 V 1 600 V / 1.5 kV 1/7 230 V / 230 V 23/ 11.5/11.5 5.75/5.75 2.875/2.875 1.44/1.44 0.77/0.77 0.38/0.38 0.23/0.23 * One-minute rest between repetitions © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Duration Basic/Enhanced Repetitions * Protection 0 s min ITU-T K.20 and K.21 Primary ...

Page 138

... Current (Voltage Waveform) (A) 10x560 µs 100 10x160 µs 200 9x720 µs 25 9x720 µs 37 Rise & Decay Time Repetitions (Current Waveform) Each Polarity 10x560µs 1 10x160µs 1 5x320µs 1 5x320µs 1 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 139

... Tip and Ring conductors and Ground must be greater than 100 kW. The REN values for the simulated ringing test are determined by dividing the maximum DC current flowing between Tip and Ring by 0.6 mA, and by dividing 8000 W by the minimum impedance value measured. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 140

... Class 3 — protection relying upon supply from SELV circuits (voltages peak dc) UL 60950 also defines five categories of insulation: • Functional • Basic • Supplementary • Reinforced • Double http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 141

... For a typical telecommunication application with a working voltage of 200 V, pollution degree 2, material group IIIb, the creepage distance is 2 mm. The clearance distance for reinforced insulation. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 142

... Teccor Electronics ® SIDACtor Data Book and Design Guide only B/S R 0.4 0.8 0.7 1.4 0.7 1.4 1.1 2.2 1.4 2.8 IIIa or IIIb 1.9 2.2 2.4 2.5 3 ...

Page 143

... Class A limit is 150 °C. • Class B limit is 175 °C. • Class E limit is 165 °C. • Class F limit is 190 °C. • Class H limit is 210 °C. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide UL 60950 3rd Edition (formerly UL 1950, 3rd edition http://www ...

Page 144

... No No Overvoltage Testing 26 AWG Line Cord Yes No Pass 6.1 Yes No Fire Enclosure No 5 and Spacings Yes Pass 1 No Yes No Pass 5 Yes 6 Pass Pass 3, 4 Yes Not Acceptable rating of 100A s © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 145

... Tests 2, 3, and 4 are required only if the unit is not a fire enclosure. • Figure 4.6 and Figure 4.7 show the M (metallic) and L (longitudinal) test connections. Figure 4.6 Metallic Connection Appearances © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 146

... Current probe used with a 300 mm length of 0.5 mm (24 AWG) copper wire (for test condition 1) http://www.teccor.com +1 972-580-7777 Current Secondary Protector Limiting Simulators or Resistors Wiring Stations Timed Switch Variable AC Voltage Source Equipment Earth SIDACtor Equipment Under Test 2 t © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 147

... The only specific requirements of UL 60950 that pertain to the SIDACtor device itself are the impulse test and the mandate that components be UL recognized. All other UL 60950 requirements pertain to the equipment being evaluated. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 148

... Cover Replacement Test • Strain Relief Test • Replacement Arrestors Installation Test • Appliqué Assemblies Installation Test • Dielectric Voltage-withstand Test • Manufacturing and Production Tests • Marking http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 149

... V dc. The interval between pulses is five seconds. Arrestors are to be tested in each polarity, and it is acceptable for the protector to short circuit following the discharge testing. (Figure 4.9) Figure 4.8 UL 497 Breakdown Voltage Measurement © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 150

... UL 497 Figure 4.9 UL 497 Discharge Test http://www.teccor.com +1 972-580-7777 Variable Supply 1 10 Ω Spot 5 MΩ 0-12,000 V Switch *Or Voltage Capability Necessary to Develop 10,000 V Across Capacitor Test Specimen © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 151

... Weather-o-meter and Micro Tensile Strength Test • Thermal Aging and Flame Test • Electric Shock Current Test • Manufacturing and Production Line Test • Marking, Installation, and Instructions © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 497A http://www ...

Page 152

... A or just below the interrupt value of the current interrupting device SIDACtor Time Connection 1.5 s (Note 1, Figure 4.11 (Note 1, Figure 4.11) (Note 2, Figure 4.11) 30 min (Note 2, Figure 4.11) 30 min (Note 1, Figure 4.11) © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 153

... Circuit for Common Mode (Longitudinal) Overvoltage Tests Current Secondary Protector Limiting Simulator or Resistors Wiring Station Timed Switch Variable AC Voltage Source Equipment Ground Figure 4.11 UL 497A Overvoltage Test © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 50,000 Ω 10 Ω Variable DC Supply 0-1000 V ...

Page 154

... Repeated Discharge Test — Protectors must not break down at a voltage higher than the manufacturer’s maximum rated breakdown voltage nor lower than rated stand-off http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 155

... Note: The epoxy used to construct a SIDACtor device body meets UL 94V-0 requirements for flammability. Figure 4.12 UL 497B Strike Voltage Breakdown Test Figure 4.13 UL 497B Discharge Test © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide R ...

Page 156

... V peak 10x1000 µs pulse. Pulses are applied in one polarity at 10-second intervals and then repeated in the opposite polarity. Then, 100 cycles of 1000 V peak, 100 A, 10x1000 µs pulse are applied to three new protectors. Finally, two cycles of http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 157

... Discharge Test — Protectors must comply with strike voltage requirements after being subjected to a discharge of 1000 V, 100 ± 10 V/µ impulse. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 158

... Figure 4.14 Balanced Line Protection using Teccor’s “AC” or “AA” series Figure 4.15 Metallic-only Solution using Teccor’s “SC” or “SA” series. http://www.teccor.com +1 972-580-7777 F1250T Tip Ring F1250T F1250T / F0500T Tip Ring Protected Equipment To Protected Equipment © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 159

... TIA-968, TIA-968 allows telecommunications equipment to pass Type A surges non- operationally as well. For non-operational TIA-968 solutions, coordinate the I SIDACtor device and the I surge, but that during the Type A surge the fuse will open. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 160

... Figure 4.18 Balanced Line Protection using Teccor’s “AA” Series Figure 4.19 Metallic-only Solution using Teccor’s “SA” or “EA” Series http://www.teccor.com +1 972-580-7777 F0500T Tip Ring F1250T F0500T Tip Ring SIDACtor To Protected Equipment To Protected Equipment © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 161

... FTZ R12 is a German specification. Table 4.19 and Table 4.20 show the recommended SIDACtor device surge rating for each standard. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Surge Waveforms for Various Standards http://www ...

Page 162

... A, B, C/B, C 5x310 A, B, C/B, C 5x310 A, B, C/C 1 0.2 s F1250T 0.2 s/2 s F1250T * 5x310 A, B, C/B, C 5x310 A, B, C/C 5x310 A, B, C/B, C 5x310 A, B, C/C 1 0.2 s F1250T 0.2 s/2 s F1250T * © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 163

... Fuse Selection Criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-8 Overvoltage Protection Comparison 5-10 Overcurrent Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14 PCB Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-18 SIDACtor Soldering Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-22 TeleLink Fuse Soldering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-25 Telecommunications Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-26 Lightning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-27 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 5-1 http://www.teccor.com +1 972-580-7777 ...

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...

Page 165

... SIDACtor device’s V protective mode with characteristics similar to an avalanche diode. When supplied with enough current (I the circuit it is protecting. While in the on state, the SIDACtor device is able to sink large © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 166

... Figure 5.2 Geometric Structure of Bidirectional SIDACtor devices http://www.teccor.com +1 972-580-7777 ) across the device. Once the low impedance (measured SIDACtor rating is exceeded, the PP , the DRM ) until the current flowing T © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 167

... For circuits that use additional series resistance, the surge current rating (I SIDACtor device should be greater than or equal to the available surge currents associated with the lightning immunity tests of the applicable regulatory requirement (I I ³ PK(available) © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ) DRM Ö 268 ...

Page 168

... DC current that can be supplied during an operational and short circuit condition. http://www.teccor.com +1 972-580-7777 ): TOTAL = TOTAL TIP SOURCE = RING SOURCE TIP RING SOURCE SOURCE TIP = 1000 V/ TOTAL ) calculated for both Tip and TOTAL ) of the SIDACtor device must be greater H © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ) PK ...

Page 169

... Assuming that the critical point of insertion loss is 70% of the original signal value, the SIDACtor device can be used in most applications with transmission speeds MHz. For transmission speeds greater than 30 MHz, the new MC series is highly recommended. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 170

... Because there is a high degree of variance in the fusing characteristics, the I http://www.teccor.com +1 972-580-7777 Equivalent I 10x160 µs 10x560 µs (A) ( 130 85 160 115 ratings listed should only be used as approximations Rating PP 10x1000 µs ( 100 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 171

... The maximum available surge current is calculated by dividing the peak surge voltage (V by the total circuit resistance (R I PK(available) For longitudinal surges (Tip-Ground, Ring-Ground), R Ring SOURCE TOTAL TOTAL For metallic surges (Tip-Ring SOURCE TOTAL © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ) PP ): TOTAL = TOTAL / TIP SOURCE + R RING SOURCE /I ...

Page 172

... SIDACtor device will clamp a transient DRM ) rating. Then, once the current flowing S ), the SIDACtor device will reset and return to its ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 173

... Applications Although MOVs are restricted from use in many telecom applications (other than disposable equipment), they are useful in AC applications where a clamping device is required and tight voltage tolerances are not. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Overvoltage Protection Comparison http://www ...

Page 174

... Due to their low power ratings, TVS diodes are not used as primary interface protectors across Tip and Ring; they are used as secondary protectors that are embedded within a circuit. http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 175

... V Devices 800 700 600 500 400 300 200 0.001 0.01 Figure 5.3 Overshoot Levels versus dv/dt © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Overvoltage Protection Comparison Gas Tube Avalanche Diode SIDACtor 0 dv/dt – Volts/µs ...

Page 176

... R. When this heat becomes sufficient, the ® SIDACtor Data Book and Design Guide 2 t rating is © 2002 Teccor Electronics ...

Page 177

... The maximum available surge current is calculated by dividing the peak surge voltage (V by the total circuit resistance (R ³ (available) For longitudinal surges (Tip-Ground, Ring-Ground), R Ring TOTAL TOTAL For metallic surges (Tip-Ring TOTAL © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ). TOTAL = TOTAL + R TIP SOURCE + R RING SOURCE + ...

Page 178

... Advantages Flameproof resistors are inexpensive and plentiful. http://www.teccor.com +1 972-580-7777 TeleLink SM Fuse F1250T F1250T F0500T F1250T F1250T All ® SIDACtor Data Book and Design Guide SIDACtor Device C Series B Series A Series A Series A Series All © 2002 Teccor Electronics ...

Page 179

... Flameproof resistors are not resistive to transient conditions and are susceptible to nuisance blows. Applications Outside of very inexpensive customer premise equipment, small resistors are rarely used as a means to protect telecommunications equipment during power fault conditions. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide Overcurrent Protection http://www ...

Page 180

... Figure 5.4 to calculate the conductor cross-sectional area required. Once this http://www.teccor.com +1 972-580-7777 200 250 10 20 100 150 300 400 Conductor Cross-Section Area (sq mils ˚C Allowable 60 ˚C Temperature 45 ˚C Rise 30 ˚C 20 ˚C 10 ˚C 500 600 700 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 181

... Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 182

... G = function of thickness and width as provided in Table 5 trace thickness w = trace width (di/dt 2.4 µH (100 A/10 µ µH (100 A/10 µs) = 120 equal to 300 V and a S Total protection level SIDACtor device 300 V 324 V 300 V 420 V © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ) S ...

Page 183

... Note: Sides of the rectangle are t and w. The geometric mean distance R is given by: log R = log (t+w) - 1.5 + log e e © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide K 0.22313 0.22333 0.22346 0.22360 0.22366 0.22369 0.22369 ...

Page 184

... This temperature is typically 215 °C, but for temperatures in excess of 215 °C, care should be taken so that the maximum temperature of the leads does http://www.teccor.com +1 972-580-7777 2. Place component (allow flux to dry SIDACtor 3. Reflow solder © 2002 Teccor Electronics ® Data Book and Design Guide ...

Page 185

... Therefore important to use a standard contact pattern which leaves sufficient room for self-positioning. After the solder cools, connections should be visually inspected and remnants of the flux removed using a vapor degreaser with an azeotrope solvent or equivalent. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 186

... Figure 5.10 Wave Soldering Surface Mount and Leaded Components http://www.teccor.com +1 972-580-7777 Cure glue Wave solder PC board Insert leaded components Turn over the PC board Apply glue Place SMDs Cure glue Turn over the PC board Wave solder ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 187

... Inspect the solder joint to ensure an adequate solder fillet has been produced without any cracks or visible defects. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 188

... Ground potential rise is a result of large fault currents flowing to Ground. Due to the varying soil resistivity and multiple grounding points, system potential differences may result. http://www.teccor.com +1 972-580-7777 ® SIDACtor Data Book and Design Guide © 2002 Teccor Electronics ...

Page 189

... During a lightning strike, the associated voltages range from 20,000 V to 1,000,000 V while currents average around 35,000 A. However, maximum currents associated with lightning have been measured as high as 300,000 A. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

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NOTES ...

Page 191

... Modified MS-013 Six-pin 6-16 Modified TO-220 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-17 TeleLink Surface Mount Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-18 Lead Form Options 6-20 Modified TO-220 Type 6-20 Modified TO-220 Type 6-21 Modified TO-220 Type 6-21 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide 6-1 http://www.teccor.com +1 972-580-7777 ...

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...

Page 193

... All leads are insulated from case. Case is electrically non-conductive. (Rated at 1600 V ac rms for one minute from leads to case over the operating temperature range) • Dimension “C” is measured on the flat section of the lead. © 2002 Teccor Electronics ® SIDACtor ...

Page 194

... MIN MAX 3.56 3.94 5.21 5.59 1.96 2.11 4.22 4.57 0.91 1.42 1.85 2.11 0.10 0.20 1.95 2.18 1.09 1.35 0.20 0.30 0.99 1.24 0.56 0.71 0.69 0.84 1.32 1.47 © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 195

... All leads are insulated from case. Case is electrically non-conductive. (Rated at 1600 V ac rms for one minute from leads to case over the operating temperature range) • Mold flash shall not exceed 0.13 mm per side. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 196

... Teccor Electronics ® SIDACtor Data Book and Design Guide R ...

Page 197

... All leads are insulated from case. Case is electrically non-conductive. (Rated at 1600 V ac rms for one minute from leads to case over the operating temperature range) • Mold flash shall not exceed 0.13 mm per side. © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

Page 198

... Teccor Electronics ® Data Book and Design Guide ...

Page 199

... The following illustration shows the top view or side view dimensions of a TeleLink fuse: .055 ± .010 (1.40 ± 0.25) .109 ± .006 (2.77 ± 0.15) The following illustration shows the footprint dimensions of a TeleLink fuse: © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide .109 ± .006 (2.77 ± 0.15) .109 ± ...

Page 200

... Dimensions are in inches (millimeters). 0.040 ± 0.004 (1.016 ±0.102) 0.010 typ (0.025) 0.260 (6.604) max Dimensions are in inches (millimeters). 0.020 (0.508) typ © 2002 Teccor Electronics ® SIDACtor Data Book and Design Guide ...

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