Active filters amplify desired signals while rejecting unwanted frequencies, and can be tailored to meet application-specific requirements in electronics.
Amplifiers boost signal strength, match impedance levels, and are essential in many circuit systems, including audio, broadcasting, and telecommunications.
Batteries store and provide electrical energy, come in various types and sizes for multiple uses, rechargeable or single-use.
Capacitors store electrical charge with metallic plates and a dielectric; types vary and can be combined for specific circuit characteristics.
Chip carriers and sockets provide an interface between components and PCBs, enabling easy replacement or upgrading without soldering.
Circuit protection devices prevent damage from overcurrent flow, including fuses, breakers, surge protectors, and voltage regulators.
Connector accessories and support devices aid connector function and longevity, including backshells, grips, clamps, and ties; must be compatible with connector type.
Connectors join electronic circuits to transfer signals and power, come in various sizes and shapes, and include support accessories.
Converters transform DC input to another voltage level, essential in electronic systems, renewable energy, and automotive electronics.
Crystals and resonators generate and stabilize frequency signals via piezoelectricity. They are used in timing, frequency control, and filters. Crystals are quartz and resonators are ceramic with a built-in capacitor.
Semiconductor diodes control current flow in one direction (uni-directionality) via low resistance. Useful for rectification, voltage regulation, detection, and digital logic.
Discover essential electronic components for your devices, including CPU accelerators, system cache controllers, computer processors, motherboards, and graphics computing systems. Enhance device performance and connectivity with reliable components engineered for seamless integration and optimal functionality.
Fiber optics use light pulses to transmit data over long distances. They have superior bandwidth capacity, low signal attenuation, and secure physical properties. They are essential in telecommunications networks today.
Filters enhance signal processing by selectively passing desired frequencies while suppressing unwanted ones. Filters can be passive (using capacitors, resistors, and inductors) or active (using transistors or amplifiers).
Flash devices are non-volatile storage solutions that offer fast read and write speeds, making them ideal for applications requiring high-speed data transfer. These devices utilize flash memory technology, providing reliable storage for data-intensive tasks such as gaming, multimedia, and enterprise-level applications.
General purpose ICs consist of multiple individual circuits or components (e.g., logic gates, amplifiers, oscillators, etc.) that are combined onto a single integrated circuit chip for a smaller physical footprint.
I/O and storage controllers are crucial components in computer systems, managing input/output operations and storage devices. These controllers facilitate efficient data transfer between peripherals, storage drives, and the central processing unit (CPU), enhancing system performance and enabling seamless connectivity.
Inductors store energy in magnetic fields, oppose sudden changes in current flow and prevent electrical surges. Common inductor applications include power supplies, signal filters, and oscillators.
Interface ICs allow efficient device connectivity with high-speed data transfer and low power consumption.They can be ASIC or FPGA types, and may perform additional functions such as sensing, storage, and conversion.
Logic ICs can be used for storage, memory, amplification, and multiplexing. They perform fundamental logical operations on digital input signals (1, 0, H, L) to generate a corresponding digital output signal.
Memory modules are essential components in electronic devices, storing data temporarily or permanently for processing and retrieval. From volatile RAM (Random Access Memory) to non-volatile ROM (Read-Only Memory), memory technologies vary in speed, capacity, and functionality, catering to diverse application requirements.
Memory ICs store digital data and retain the information even when the power is turned off. They come in various types, like RAM (Random Access Memory) for fast data access, and ROM (Read-Only Memory) for permanent data storage.
Miscellaneous semiconductor components are a diverse category of electronic components that combines elements from a mix of component devices.
Optoelectronic devices interact with light. This family of devices can emit light, detect light, generate current, and transmit light signals for long-distance communication.
Oscillators generate repetitive waveforms, such as sine, square, or triangle waves. They are commonly used to produce stable and precise frequencies for applications like clocks, signal generation, and communication systems.
Other Function Semiconductor components are a diverse category of semiconductor components that perform a range of specialized functions.
Passive component networks operate without a power source and support data transmission within system by performing filtering, energy storage, and/or signal coupling functions.
Peripheral ICs (Integrated Circuits) are designed to control and manage the peripheral devices connected to a computer or other electronic device.
Programmable Logic ICs are user-programmable devices that allow designers to create custom logic circuits. These cost saving ICs offer real-time data processing and maximum design flexibilty.
RF (Radio Frequency) and microwave devices are used in telecommunications, wireless communications, and electronic systems. These devices include amplifiers, attenuators, filters, mixers, oscillators, and antennas, and a host of other components.
Voltage regulators are used to ensure a constant output voltage despite power fluctuations and load changes. Linear and switching regulators are common types used to maintain voltage stability.
Relays are electromagnetic switches that are used to control the flow of electrical current in an electrical circuit. Relays are a safe means of providing isolation between a controlling circuit and a controlled circuit.
Resistors control the flow of electrical current in a circuit by introducing a set resistance. These passive components reduce current flow, adjust signal levels, and bias active elements in circuits.
Transducers convert energy from one form to another and are crucial in sensing, audio and control systems. They transform physical measures like temperature, pressure, or sound into electrical signals for circuits.
Storage drives are hardware devices used to store and retrieve digital data in computers and electronic devices. These drives come in various forms, including hard disk drives (HDDs), solid-state drives (SSDs), and hybrid drives, offering different levels of capacity, speed, and durability to suit specific storage needs.
Storage media encompass physical or digital mediums used for storing and preserving digital data. From optical discs and magnetic tapes to USB flash drives and memory cards, storage media come in diverse formats and capacities, offering flexibility and reliability for data storage and archival purposes.
Storage systems comprise hardware and software components designed to manage and store digital data efficiently. These systems range from simple standalone devices to complex network-attached storage (NAS) and storage area network (SAN) solutions, providing scalable storage capacity and data protection features for businesses and enterprises.
Switches control electrical current flow by making or breaking connections. These devices vary in design and application, from basic on/off switches to complex industrial automation systems.
Telecom integrated circuits (ICs) are specialized electronics for telecommunications, tailored to high data rates, low power use, and reliable long-distance transmission. These devices include amplifiers, filters, ADCs, DACs, and more-- and they are often integrated on one chip for specific telecom tasks.
Terminal blocks, or connection terminals, are modular blocks that bring together multiple electrical wires at one connection point. They offer a reliable, organized way to terminate cables.
Thermal management devices control heat in electronic systems, preventing overheating and ensuring optimal performance and reliability. Examples include heat sinks, fans, and thermal interface materials that dissipate or transfer heat away from components.
Transformers are devices that alter electrical voltage levels between circuits through electromagnetic induction. They are vital in power distribution, converting high-voltage electricity for transmission and lower voltage for safe usage.
Transistors are 3-layer semiconductor devices that regulate the flow of electrical current. They function as amplifiers, boosting weak signals, and as switches, controlling the flow of current between terminals.
Triggering devices initiate electronic processes or events in response to specific conditions. These devices support many automated tasks such as activating switches and signals, or turning on lights when motion is detected.
Video cards, also known as graphics cards or GPU (Graphics Processing Unit), are essential components in computers, responsible for rendering graphics and images on display devices. These cards feature dedicated processors and memory, delivering smooth and immersive visual experiences for gaming, multimedia, and professional applications.
Choose from over than a million of proven quality materials. Over 300 manufacturers are presented. From renowned major international players to small independent companies with a proven track record in local markets.
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HPA00441ZALR
Texas Instruments
HPA00441ZALR clock driver by Texas Instruments features 176 terminals in a grid array package with a thin profile and fine pitch. Operating temperature ranges from 0 to 85°C, making it suitable for various applications requiring precise timing synchronization. Its surface mount design and standard input conditioning offer flexibility in electronic circuit integration.
SSQE
STANDARD
S-PBGA-B176
e1
13.5 mm
PLL BASED CLOCK DRIVER
3
1
0
176
85 Cel
0 Cel
PLASTIC/EPOXY
TFBGA
SQUARE
GRID ARRAY, THIN PROFILE, FINE PITCH
260
1.2 mm
YES
OTHER
Tin/Silver/Copper (Sn/Ag/Cu)
BALL
.65 mm
BOTTOM
NOT SPECIFIED
8 mm
NBSG11MAG
Onsemi
NBSG11MAG by Onsemi is a Clock Driver & Buffer with 0.16 ns Propagation Delay, Differential Input Conditioning, and 2.5V Nominal Voltage. Ideal for high-speed applications requiring precise signal synchronization in electronic systems.
NECL MODE: VCC = 0V WITH VEE = -2.375V TO -3.465V
11
DIFFERENTIAL
S-PBGA-B16
e3
4 mm
LOW SKEW CLOCK DRIVER
16
2
70 Cel
-40 Cel
TBGA
LGA16,4X4,40
GRID ARRAY, THIN PROFILE
-2.5/-3.3/2.5/3.3
.16 ns
Not Qualified
.015 ns
1.03 mm
Clock Drivers
3.465 V
2.375 V
2.5
ECL
MATTE TIN
1 mm
10709 MHz
NBSG53AMAG
NBSG53AMAG clock driver by Onsemi features a propagation delay of 0.27 ns, operates at a nominal voltage of 2.5V, and offers differential input conditioning. This device is suitable for applications requiring precise clock signal distribution in electronic systems with surface mount requirements.
53
BGA16,4X4,40
.27 ns
Matte Tin (Sn)
40
SN74SSQEB32882ZALR
SN74SSQEB32882ZALR clock driver by Texas Instruments operates at 1.35V with 176 terminals in a grid array package style. It has a max frequency of 945MHz, suitable for high-speed applications requiring precise timing control and signal buffering. The device is designed for surface mount assembly, making it ideal for compact electronic systems with strict space constraints.
S
BGA176,11X20,25
GRID ARRAY
TR
1.25/1.5
Other Logic ICs
1.35
TIN SILVER COPPER
30
945 MHz
NBSG111BAR2
NBSG111BAR2 clock driver by Onsemi features a 0.35ns propagation delay, ECL technology, and 10 true outputs. Ideal for applications requiring differential mux input conditioning in a compact grid array package with low profile design. Operating temperature range from -40 to 70 °C makes it versatile for various electronic systems.
NECL OPERATING RANGE: VCC = 0 V WITH VEE = -2.375 V TO -3.465 V
111
DIFFERENTIAL MUX
S-PBGA-B49
e0
49
10
LBGA
BGA49,7X7,40
GRID ARRAY, LOW PROFILE
.35 ns
.02 ns
1.4 mm
TIN LEAD
NBSG11BAR2
NBSG11BAR2 clock driver by Onsemi features a propagation delay of 0.16 ns, operates at a nominal voltage of 2.5V, and has differential input conditioning. This ECL technology device with 16 terminals is ideal for applications requiring high-speed signal synchronization in electronic systems.
NBSG11BA
NBSG11BA clock driver by Onsemi features a propagation delay of 0.16 ns, operates at 2.5V, and has a max operating temperature of 70 °C. It is used in applications requiring differential input conditioning and offers surface mount compatibility with a low profile grid array package style.
NBSG14BA
NBSG14BA clock driver by Onsemi features a propagation delay of 0.15 ns, operates at a nominal voltage of 2.5V, and offers differential input conditioning. This ECL technology device with 16 terminals is ideal for applications requiring high-speed signal transmission in electronic systems.
RSNECL MODE: VCC = 0 V WITH VEE = -2.375 V TO -3.465 V
14
4
SERIES-RESISTOR
.15 ns
10700 MHz
NBSG53ABAR2
NBSG53ABAR2 clock driver by Onsemi features a low propagation delay of 0.275 ns, operates at a nominal voltage of 2.5V, and offers differential input conditioning. This device is ideal for applications requiring precise clock signal distribution in electronic systems with surface mount requirements.
.275 ns
NBSG53ABA
NBSG53ABA by Onsemi is a clock driver with 0.275 ns propagation delay, suitable for differential input conditioning. Operating b/w -40 to 70 °C, it has a 16-terminal grid array package with low profile design. Ideal for applications requiring precise timing and signal synchronization in electronic systems.
98ULPA877AHILF-T
Integrated Device Technology
98ULPA877AHILF-T clock driver by Integrated Device Technology features a 52-terminal grid array package with low profile and fine pitch. It operates at a supply voltage of 1.8V, has a max output current of 9A, and offers differential input conditioning. Ideal for industrial applications requiring high-speed performance up to 410MHz in temperature ranges from -40°C to 85°C.
98ULPA
R-PBGA-B52
7 mm
9 Amp
52
3-STATE
LFBGA
BGA52,6X10,25
RECTANGULAR
GRID ARRAY, LOW PROFILE, FINE PITCH
1.8
.04 ns
1.31 mm
1.9 V
1.7 V
INDUSTRIAL
4.5 mm
410 MHz
CDC7005ZVAT
The Texas Instruments CDC7005ZVAT is a clock driver with 64 terminals, operating at 3.3V. It features a propagation delay of 0.95ns, output characteristics in 3-STATE, and can handle up to 6A current. Ideal for industrial applications requiring precise timing and signal conditioning in compact spaces.
INTEGRATED LOW-NOISE OP AMP
7005
S-PBGA-B64
6 Amp
64
265 mA
.95 ns
.06 ns
3.6 V
3 V
3.3
.8 mm
800 MHz
CDCU877GQLT
The Texas Instruments CDCU877GQLT clock driver features 52 terminals, operates at a supply voltage of 1.8V, and offers a max output current of 9A. Ideal for industrial applications requiring differential input conditioning and a CMOS technology, this device has a compact rectangular package with very thin profile and fine pitch grid array style.
877
VFBGA
GRID ARRAY, VERY THIN PROFILE, FINE PITCH
235
.035 ns
CMOS
20
340 MHz
CDCU877ZQLR
CDCU877ZQLR clock driver by Texas Instruments operates at 1.8V, with 52 terminals in a grid array package style. It features differential input conditioning, 3-STATE output characteristics, and a max operating temperature of 85°C. Ideal for industrial applications requiring high-speed performance up to 340MHz.
CDCU877BZQLR
The Texas Instruments CDCU877BZQLR clock driver features 52 terminals, operates at a supply voltage of 1.8V, and has a max operating temperature of 85°C. It is designed for industrial applications requiring differential input conditioning and offers a max fmax of 340MHz with 10 true outputs in a compact rectangular package style.
.025 ns
CDCM7005ZVAR
The Texas Instruments CDCM7005ZVAR clock driver features 64 terminals, 3.3V nominal voltage, and 10pF load capacitance. It is ideal for industrial applications requiring a max operating temperature of 85°C, with a propagation delay of 3ns and output characteristics in a 3-state configuration.
USER DEFINABLE FIVE DIFFERENTIAL LVPECL OUTPUT; DIFFERENTIAL VCO IN CLOCK
SCHMITT TRIGGER MUX
10 pF
8 Amp
5
260 mA
3 ns
2.4 ns
1500 MHz
CDCM7005ZVAT
Texas Instruments CDCM7005ZVAT is a clock driver with 64 terminals, operating at 3.3V. It features Schmitt trigger mux input conditioning, 10pF load capacitance, and 3ns propagation delay. Ideal for industrial applications requiring a max frequency of 1500MHz and operating temperature range from -40 to 85°C.
CDCM7005ZVA
CDCM7005ZVA clock driver by Texas Instruments features 64 terminals, 3.3V nominal voltage, and 10pF load capacitance. It is ideal for industrial applications requiring a max operating temperature of 85°C, with a propagation delay of 3ns and output characteristics in the form of 3-STATE.
TRAY
Clock Driver
SN74SSQE32882ZCJR
SN74SSQE32882ZCJR by Texas Instruments is a clock driver & buffer with 176 terminals in a grid array package. Operating at 1.5V, it features CMOS technology and 0.65mm terminal pitch. Ideal for applications requiring standard input conditioning and surface mount compatibility.
15 mm
BGA176,8X22,25
1.5
6 mm
CDCU2A877ZQLR
CDCU2A877ZQLR clock driver by Texas Instruments operates at 1.8V, with 52 terminals in a grid array package style. It offers 10 true outputs, a max frequency of 410MHz, and is suitable for commercial temperature grade applications.
18 Amp
COMMERCIAL
CDCU2A877NMKR
CDCU2A877NMKR clock driver by Texas Instruments features 52 terminals, operates at a supply voltage range of 1.7V to 1.9V, and has a max power supply current of 325mA. It is designed for applications requiring differential input conditioning and offers a min operating temperature of 0°C and max operating temperature of 70°C. With a package style of grid array, very thin profile, fine pitch, this device is suitable for commercial-grade projects needing precise clock distribution up to a frequency of 410MHz.
325 mA
CDCU2A877NMKT
CDCU2A877NMKT clock driver by Texas Instruments features 52 terminals, operates at a supply voltage range of 1.7V to 1.9V, and has a max power supply current of 325mA. It is designed for applications requiring differential input conditioning, with a package style of grid array and very thin profile suitable for commercial temperature grades. The device offers a min operating temperature of 0°C and max operating temperature of 70°C, making it ideal for various electronic systems needing precise clock synchronization.
CDCUA877NMKT
Texas Instruments CDCUA877NMKT is a clock driver with 52 terminals, operating at -40 to 85 °C. It features a differential mux input conditioning, 410 MHz min fmax, and 20 true outputs. Ideal for industrial applications requiring precise timing control in compact spaces.
225 mA
CDCU877ANMKT
Texas Instruments CDCU877ANMKT is a clock driver with 52 terminals, operating at -40 to 85°C. It offers differential input conditioning, 0.65mm terminal pitch, and 10 true outputs at max frequency of 340MHz. Ideal for industrial applications requiring precise timing control in compact spaces.
235 mA
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