=== Protectors, fuses, arresters, suppressors ===

452 Receiver protectors, solid-sitate, multi-mode, X-band, for airborne applications, F =8.5-10.3 GHz, BW =400&800 MHz, P(peak) =1-15 kW, P(mean) =15-500 W, IL =0.5-0.7 dB, VSWR =1.3-1.4, T(pulse duration) =1-100 us, flat leakage =10-50 mW, spike leakage =5-10 nJ, T(recovery) =0.2-0.8 us
3724 Receiver protectors, solid state, W/G, requiring synchronous bias during transmission, in all radar frequency bands between 1.25 and 40 GHz, BW =5-12%, P(peak) =0.5-200 kW (active), 0.4-10 kW (passive), P(mean) =15-1000 W (active), 4-50 W (passive) RF leakage =15-100 mW, VSWR =1.25-1.40, IL =0.3-1.5 dB, T(recovery) =0.2-5.0 us
8678 Protectors, lightning (quarter-wave arrestors, type N), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=810-956 MHz, IL<0.1 dB, VSWR<1.1, Pavg<1000 W
8679 Protectors, lightning (quarter-wave arrestors, type N), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=880-960 MHz, IL<0.1 dB, VSWR<1.1-1.2, Pavg<1000 W
8680 Protectors, lightning (quarter-wave arrestors, type N), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=1429-1501 MHz, IL<0.1 dB, VSWR<1.1, Pavg<1000 W
8681 Protectors, lightning (quarter-wave arrestors, type N), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=1710-1880 MHz, IL<0.1 dB, VSWR<1.1, Pavg<1000 W
8682 Protectors, lightning (quarter-wave arrestors, type N), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=1850-1990 MHz, IL<0.1 dB, VSWR<1.1-1.2, Pavg<1000 W
8683 Protectors, lightning (quarter-wave arrestors, 7/16), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=810-956 MHz, IL<0.1 dB, VSWR<1.10, Pavg<1000 W
8684 Protectors, lightning (quarter-wave arrestors, 7/16), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=880-960 MHz, IL<0.1 dB, VSWR<1.10-1.20, Pavg<1000 W
8685 Protectors, lightning (quarter-wave arrestors, 7/16), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=1710-1880 MHz, IL<0.1 dB, VSWR<1.10, Pavg<1000 W
8686 Protectors, lightning (quarter-wave arrestors, 7/16), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=1429-1501 MHz, IL<0.1 dB, VSWR<1.10, Pavg<1000 W
8687 Protectors, lightning (gas capsule arrestors, type N), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=0-2000 MHz, IL<0.2 dB, VSWR<1.06-1.35, Pavg<180 W
8688 Protectors, lightning (gas capsule arrestors, 7/16), high pressure contacts and silver plating guarantee, excellent results in passive intermodulation, excellent performance in multiple strikes, maintenance-free operation. Lightning can transmit high voltage up to 50 kV/m in a few microseconds. These voltages are transmitted in unprotected cables and lines directly to valuable unprotected equipment. Primarily this mainly endangers radio installations with antennae in expose lCations putting mobile telephone systems especially at risk. Consequently, the use of EMP protectors is an asolute must. F=0-2000 MHz, IL<0.2 dB, VSWR<1.06-1.35, Pavg<180 W
12235 Protectors. Surge protection devices are subassemblies combining several protection complements. They may be used by the installer or by the end customer. They are designed to be incorporated in an installation to protect all electric, electronic, and data-processing equipment from transient over-voltages.
12236 Protectors. Gas discharge tubs are the basic passive components used to protect telephone exchanges and equipment from voltage surges; they are generally installed on telephone networks by telecommunications operators.
12537 Arresters provides protection of equipments for high-tension electricity or lightning. It offers excellent IMD with compact size to simple construction. This design concept makes highly reliable arrester with low price, small size and light weight even very strong against the impact. Each specification can be available upon request. IL<0.1 dB, VSWR<1.1, Pin<500 W, Imp=50 Ohm, -40 to +60C, N/SMA-connectors
15035 Limiters, detecter activated, broadband, low insertion loss, hermetically sealed module, moderate cost, for power levelling and receiver protection. In ECM, radar and communication systems, these limiters can protect transistor, tunnel diode or FET amplifiers, detectors and mixers, 10 models, F =0.5-1, 0.5-2, 1-2, 2-4, 2-8, 2-18, 4-8, 7-12, 8-16, 11-18 GHz, IL <0.7-2.5 dB, VSWR <1.4-2.5, Pin =1 W(CW), 100 W(peak@1us), T(recovery) =10-20 ns, limiting threshold =+6 dBm, leakage level =+13 dBm, -55 to +125C
16241 Protection switch system, easy to install and operate, no indoor equipment is needed, no external power required, serial port for remote control, provides a high reliability 1 for 1 hot-standby configuration for the C and Ku-band transceivers.
17064 Protectors. Gas discharge tubes are the basic passive components used to protect telephone exchanges and equipment from voltage surges; they are generally installed on telephone networks by telecommunications operators.
17065 Protectors. Surge protection devices are subassemblies combining several protection complements. They may be used by the installer or by the end customer. They are designed to be incorporated in an installation to protect all electric, electronic, and data-processing equipment from transient over-voltages.
17784 Suppressor, transient voltage (TVS), protects each data line between V bus and ground, provides electrically isolated protection, ultra low capacitance (14 pF: data + or data-to ground; 7pF: data+to data). This TVS array is packaged in a SO-8 configuration giving protection to 1 pair of bidirectional data lines and the V bus. It is designed for use in applications where protection is required at the board level from voltage transients caused by electrostatic discharge (ESD) as defined in IEC 61000-4-2, electrical fast transients (EFT) per IEC 1000-4-4 and effects of secondary lighting. These TVS arrays have a peak power rating of 500 W for an 8/20 s pulse. This array is suitable for protection of sensitive circuitry consisting of universal serial bus and I/O transceivers. The capacitance between the I/O data lines are minimal to ensure no significant signal distortion or loss at the 12 megabit or greater data rate. This feature allows full compatibility with USB port standards. Stand off voltage <5 V, breakdown voltage>6 V@I=1 mA, clamping voltage<10.8 V@I=1 A, <18 V@I=5 A, standby I<5 uA, C<10 pF, -55 to +150C
17785 Suppressor, transient voltage (TVS), protects up to 2 bidirectional lines, provides electrically isolated protection, ultra low capacitance (5 pF per line pair), ultra low leakage. This TVS array is packaged in a SO-8 configuration giving protection to 2 bidirectional data or interface lines. It is designed for use in applications where protection is required at the board level from voltage transients caused by electrostatic discharge (ESD) as defined in IEC 61000-4-2, electrical fast transients (EFT) per IEC 1000-4-4 and effects of secondary lighting. These TVS arrays have a peak power rating of 500 W for an 8/20 us pulse. This array is suitable for protection of sensitive circuitry consisting of TTL, CMOS, DRAMs, SRAMs, HCMOS, HSIC microprocessors, universal serial bus and I/O transceivers. The IC provides board level protection from static electricity and other induced voltage surges that can damage or upset sensitive circuitry. Stand off voltage<3.3 V, breakdown voltage>4 V@I>1 mA, clamping voltage<7 V@I=1A, <11 V@I=5A, standby I<0.2 mA, C=5pF, pulse repetition rate<0.01%, -55 to +150C
20362 Thermal circuit protectors. These series offer a reliable, cost effective solution to your circuit protection needs, ideal for: general household appliances, commercial appliances, transportation, marine, telecommunications, power strips, audio-visual equipment, medical equipment, power supplies. Ratings 3-20 A, 125-250 VAC, dielectric strength=1500 VAC/1 min, interrupting capacity=1000 A, IR=100 MOhm, -10 to +60C
20363 Thermal circuit protectors. These series offer a reliable, cost effective solution to your circuit protection needs, ideal for: general household appliances, commercial appliances, transportation, marine, telecommunications, power strips, audio-visual equipment, medical equipment, power supplies. Ratings=3-40 A, 125-250 VAC, dielectric strength=1500 VAC/1 min, interrupting capacity=1000 A, IR=100 MOhm, -10 to +60C
20491 Fuses, lead free, directly solderable on printed circuit broads or plugable into surface mount fuseholder. Rated I=250, 375, 500, 750, 1000, 1500, 2000, 2500, 3000, 3500, 4000, 5000 mA, rated voltage=125 V, breaking capacity=100 A/125V AC/DC, voltage drop=142-77 mV, sustained power dissipation=35.5-417 mW, -40 to +85C, size=7.4x3.1x2.6 mm
20551 Fuses, surface mount, quick blow, rating I=63, 80, 100, 125, 160, 200, 250, 315, 400, 500, 630, 800, 1000, 1250, 1600, 2000, 2500, 3150, 4000, 5000 mA, voltage rating=125 V, size=6.1x2.55x2.55 mm
20552 Fuses, surface mount, time delay, rating I=200, 250, 315, 400, 500, 630, 800, 1000, 1250, 1500, 2000, 2500, 3150, 4000, 5000 A, voltage rating=125 V, size=6.1x2.55x2.55 mm
20628 Surge protector, multi-strike capability, fully weatherized housing, low throughput energy, typ F connectors, flange mount. F=10-150 kHz, 10-100 MHz (telemetry), 300-2500 MHz (Rx/Tx), RL>10 dB (telemetry), >15 dB (Rx/Tx), IL<2 dB (telemetry), <1 dB (Rx/Tx), Rx/Tx group delay variation<100 ps, Imp=75 Ohm, P(RF)<50 W, user voltage=24 VDC, -50 to +85C
20683 Cello-life fuse link, for high voltage potential transformer circuit application, excellent breaking ability from high to low currents, stable performance (high purity silver wire wound on a ceramic core is used as the fusible element ensuring stable performance), small size, low priced.
20684 Cello-lite fuses, high breaking capacity (the rated breaking capacity is 50 kA at AC500/250 V and 20 kA at DC250V), short circuit currents can be greatly limited, the non-renewable enclosed design prevents emission of gases or flames when breaking and make the fuses safe, compact and light
20685 Cello-lite fuses, totally-enclosed cartridge type fuses with a large breaking capacity, safely operate and with excellent current-limiting characteristics with no danger of explosion or flaming at breaking, stable and durable operation, renewable type
20686 Cello-lite fuses. They have passed breaking capacity test for 100000 A under the rated voltage and prescribed power factor. The total operating time being short and the breaking moment being small enough, they are usable with security not only for 600 V circuit but also for lower voltage circuits. These fuse-links are approved by Lloyds Register of shipping and Burean Veritas for the rated current up to 600 A
20687 DC current-limiting fuses, high voltage, high breaking capacity, fuse elements are made of silver wire or ribbon and are specially configures to extend life againest repeated overloads. The fuses have also been tested for vibratiun and shock resistance to comply with Japanese National Defense Agency
20688 Marine cello-lite fuse, high breaking capacity, large limiting effect for short-circuit current, totally-enclosed non-renewable construction insures safe operation, not allowing any flame or gas to burst out at the moment of interruption
20795 Circuit protection SIP modules, space-saving, vertical, through hole configuration, fully integrated design helps accelerate time to market for telecommunication devices. Designed for use in a variety of telecom applications, the modules incorporate voltage protectors with 1.25 A, surface mount SMP fuses. These modules are ideal for use where high density chipsets are being implemented as they provide an integrated protection scheme to support the greater number of protection components required. Applications: digital subscriber line (DSL), analog line cards, T1/E1 interface circuits, digital line cards
22330 Arresters, protect wireless systems from lightning, protects in-line amplifier and receiver, low insertion loss, for CDMA, PCS, IMT 2000. F=800-900, 1950-2200 MHz, IL=0.12-0.15 dB, VSWR<1.12, P<500 W, bias<30 V, sizes=83x50x31, 41x43.5x30.5 mm
23744 Suppressor, bidirectional, ESD, surface mount package, high component density. Applications: ESD suppression, transient suppression. Diode breakdown voltage =5.1-10.0 V, leakage I =0.1 mkA @ 5 V, C =15 pF @ 1 MHz, Ch clamp voltage =7 V, ESD voltage capability =16 kV, peak pulse I =5.1 A


  
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