A range of bidirectional, breakover diodes in a two terminal, surface mounting, plastic envelope. These devices feature controlled breakover voltage and high holding current together with high peak current handling capability. Typical application is transient overvoltage protection in telecommunications equipment. QUICK REFERENCE DATA SYMBOL V(BO) IH ITSM P.
bient temperature Overload junction temperature 10/320 µs impulse equivalent to 10/700 µs, 1.6 kV voltage impulse (CCITT K17) half sine wave; t = 10 ms; Tj = 70 ˚C prior to surge tp = 10 ms tp = 10 µs Ta = 25˚C tp = 1 ms; Ta = 25˚C off-state on-state CONDITIONS MIN. - 40 MAX. 75% of V(BO)typ 40 15 1.1 50 1.2 50 150 70 150 UNIT V A A A2s A/µs W W ˚C ˚C ˚C THERMAL RESISTANCES SYMBOL Rth j-sp Rth j-a Zth j-a PARAMETER Thermal resistance junction to solder point Thermal resistance junction to ambient Thermal impedance junction to ambient CONDITIONS MIN. pcb mounted; minimum footprint tp = 1 ms TY.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | BR211SM-200 |
NXP |
Breakover diodes | |
2 | BR211SM-220 |
NXP |
Breakover diodes | |
3 | BR211SM-240 |
NXP |
Breakover diodes | |
4 | BR211SM-260 |
NXP |
Breakover diodes | |
5 | BR211SM-140 |
NXP |
Breakover diodes | |
6 | BR211SM-160 |
NXP |
Breakover diodes | |
7 | BR211SM-180 |
NXP |
Breakover diodes | |
8 | BR211SM |
NXP |
Breakover diodes | |
9 | BR211 |
NXP |
Breakover diodes | |
10 | BR211-140 |
NXP |
Breakover diodes | |
11 | BR211-160 |
NXP |
Breakover diodes | |
12 | BR211-180 |
NXP |
Breakover diodes |