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2035-60-SM-RPLF Datasheet, PDF (1/2 Pages) Bourns Electronic Solutions – 2035-xx-SM Precision Gas Discharge Tube Surge Protector | |||
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*RoHS VCEOARMVSAPIOILLINAASBNLTE
Features
â Leadless, surface mount for economical
assembly
â Compact mini-size
â High surge current rating
â Low capacitance and insertion loss
â Stable breakdown throughout life
â
UL Recognized
â RoHS compliant* version available
2035-xx-SM Precision Gas Discharge Tube Surge Protector
Bourns now offers a surface mount (SM) 2-electrode GDT surge protection device. The industry-leading quality and features of the
Bourns® miniature 2035 Series GDT continue in this new SM version. Compatible with âpick and placeâ assembly systems, the SM is
ideal for high-density applications such as PCBs for telecommunications, commercial and industrial applications.
Characteristics
Test Methods per ITU-T (CCITT) K.12, IEEE C62.31
Characteristic
DC Sparkover ±15 %
(±20 % for Model 2035-09) @ 100 V/s
Impulse Sparkover
100 V/µs
1000 V/µs
2035-09
90 V
350 V
525 V
2035-15
150 V
400 V
550 V
Model No.
2035-20
2035-23
200 V
230 V
425 V
575 V
450 V
600 V
2035-25
250 V
475 V
625 V
2035-30
300V
525 V
650 V
Characteristic
DC Sparkover ±15 % @ 100 V/s
(-12 %, +15 % for Model 2035-60) @ 100 V/s
Impulse Sparkover
100 V/µs
1000 V/µs
2035-35
350 V
600 V
750 V
2035-40
400 V
Model No.
2035-42
420 V
2035-47
470 V
650 V
800 V
675 V
850 V
750 V
950 V
2035-60
600 V
950 V
1100 V
Insulation Resistance (IR) ...................100 V (50 V for Model 2035-09) ............................................. > 1010 Ω
Glow Voltage ......................................10 mA ..................................................................................... ~ 70 V
Arc Voltage .........................................>1 A ........................................................................................ ~ 10 V
Glow-Arc Transition Current ............................................................................................................... < 0.5 A
Capacitance .......................................1 MHz ..................................................................................... < 1 pF
DC Holdover Voltage1 .......................>135 V, (52 V for Model 2035-09,........................................... < 150 ms
80 V for Model 2035-15)
Impulse Discharge Current.................10000 A, 8/20 µs2 .................................................................. 1 operation minimum
5000 A, 8/20 µs ...................................................................... > 10 operations
1000 A, 10/350 µs .................................................................. 1 operation
100 A, 10/1000 µs ................................................................. > 300 operations
100 A, 10/700 µs ................................................................... > 500 operations
Alternating Discharge Current ............20 Arms, 11 cycles2 ............................................................... 1 operation minimum
5 Arms, 1 s ............................................................................. > 10 operations
Operating Temperature....................................................................................................................... -55 to +85 °C
Climatic Category (IEC 60068-1)........................................................................................................ 40/90/21
Notes:
⢠UL Recognized component, UL File E153537
⢠Surface Mount (SM) parts may show a temporary increase in DCBD after the solder reï¬ow process. Most devices will recover
within 24 hours time. It should be noted that there is no quality defect nor change in protection levels during the temporary change
in DCBD.
⢠Sparkover limits after life ±20 % (-25 %, +30 % for Model 2035-09, 2035-60), IR >108.
⢠At delivery AQL 0.65 Level II, DIN ISO 2859.
1 Network applied.
2 Tube may exceed ±20 % but will continue to protect without venting.
*RoHS Directive 2002/95/EC Jan 27, 2003 including Annex.
Speciï¬cations are subject to change without notice.
Customers should verify actual device performance in their speciï¬c applications.
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