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.
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Clock drivers and buffers are two electronic components commonly used in digital systems to control the timing and distribution of clock signals.Clock drivers are electronic components that generate a clock signal and distribute it to multiple components or devices within a digital system. The clock signal is a periodic waveform that synchronizes the timing of different operations within the system. The clock driver typically amplifies and shapes the clock signal to ensure that it meets the timing requirements of the system.Buffers, on the other hand, are electronic components that amplify and isolate signals. In digital systems, buffers are often used to distribute clock signals to multiple components without degrading the quality of the signal. Buffers can help to reduce signal distortion, noise, and jitter, which can be particularly important in high-speed digital systems.Buffers can also be used to isolate signals and prevent interference between different components or devices. They can be particularly useful in situations where the output of one device or component could damage another device or component.Clock drivers and buffers can be used together to distribute clock signals throughout a digital system while maintaining signal integrity. The clock driver generates the clock signal and distributes it to the buffers, which then amplify and isolate the signal before distributing it to the various components or devices within the system.
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557G-08LFT
Integrated Device Technology
557G-08LFT by Integrated Device Technology is a Clock Driver & Buffer with 16 terminals, operating at 0 to 70°C. It features a differential mux input conditioning, supports a min fmax of 200 MHz, and has a package style of small outline, thin profile. Ideal for applications requiring precise clock signal distribution in commercial temperature environments.
LVDS UPTO 100MHZ
557
DIFFERENTIAL MUX
R-PDSO-G16
e3
5 mm
LOW SKEW CLOCK DRIVER
1
0
16
70 Cel
0 Cel
3-STATE
PLASTIC/EPOXY
TSSOP
RECTANGULAR
SMALL OUTLINE, THIN PROFILE, SHRINK PITCH
260
Not Qualified
1.2 mm
3.465 V
3.135 V
3.3
YES
COMMERCIAL
MATTE TIN
GULL WING
.65 mm
DUAL
30
4.4 mm
200 MHz
557GI-08LFT
557GI-08LFT by Integrated Device Technology is a Clock Driver & Buffer with 16 terminals, operating at industrial temperature range (-40 to 85°C). It features differential mux input conditioning, 3-state output characteristics, and operates at a max frequency of 200 MHz. This device is suitable for applications requiring precise clock signal distribution in electronic systems.
85 Cel
-40 Cel
INDUSTRIAL
8535AG-21LFT
8535AG-21LFT by Integrated Device Technology is a clock driver with a propagation delay of 1.6 ns at 3.3V, suitable for MUX input conditioning. This small outline package has a rectangular shape, operates b/w 0 to 70°C, and offers dual terminal position with gull wing form factor.
8535
MUX
R-PDSO-G14
14
2
TSSOP14,.25
1.6 ns
.02 ns
Clock Drivers
40
87008AGILFT
87008AGILFT by Integrated Device Technology is a Clock Driver & Buffer with 5.5ns Propagation Delay, 2.5V Nominal Voltage, and 8 True Outputs. It features Differential MUX Input Conditioning and operates in industrial temperature range (-40 to 85°C). Ideal for applications requiring precise clock signal distribution in compact designs.
CAN ALSO OPERATE WITH 3.3V SUPPLY
87008
R-PDSO-G24
7.8 mm
24
8
TSSOP24,.25
2.5/3.3
5.6 ns
.15 ns
2.625 V
2.375 V
2.5
250 MHz
8745BYLFT
8745BYLFT clock driver by Integrated Device Technology features a propagation delay of 3.7 ns, differential mux input conditioning, and operates at a nominal voltage of 3.3V. This device is ideal for applications requiring precise clock signal distribution in commercial temperature environments.
8745
S-PQFP-G32
7 mm
PLL BASED CLOCK DRIVER
3
32
5
LQFP
QFP32,.35SQ,32
SQUARE
FLATPACK, LOW PROFILE
4 ns
.035 ns
1.6 mm
Matte Tin (Sn) - annealed
.8 mm
QUAD
31.25 MHz
98ULPA877AHILF-T
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
DIFFERENTIAL
R-PBGA-B52
e1
9 Amp
52
10
LFBGA
BGA52,6X10,25
GRID ARRAY, LOW PROFILE, FINE PITCH
1.8
.04 ns
1.31 mm
1.9 V
1.7 V
Tin/Silver/Copper (Sn/Ag/Cu)
BALL
BOTTOM
4.5 mm
410 MHz
CDCM1804RGER
Texas Instruments
CDCM1804RGER clock driver by Texas Instruments features a propagation delay of 0.8ns, operating temperature range of -40 to 85°C, and 3-state output characteristics. Ideal for applications requiring differential input conditioning, this chip carrier with a very thin profile has 24 terminals and supports a max frequency of 800MHz.
3 LVPECL DIFFERENTIAL CLOCK OUTPUTS AND SINGLE ENDED LVCMOS OUTPUT
1803
S-PQCC-N24
e4
4 mm
12 Amp
4
HVQCCN
LCC24,.16SQ,20
CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE
TR
2.6 ns
.03 ns
1 mm
3.6 V
3 V
NICKEL PALLADIUM GOLD
NO LEAD
.5 mm
800 MHz
HMC744LC3C
Hittite Microwave
HMC744LC3C clock driver by Hittite Microwave operates at 3.3V, with differential input conditioning and 2 true outputs. Ideal for industrial applications, it features a ceramic/metal-sealed co-fired package, quad terminals, and operates b/w -40 to 85°C.
744
S-CQCC-N16
3 mm
CLOCK DRIVER
CERAMIC, METAL-SEALED COFIRED
HQCCN
LCC16,.12SQ,20
CHIP CARRIER, HEAT SINK/SLUG
GOLD OVER NICKEL
STCD1040RDM6F
STMicroelectronics
STCD1040RDM6F from STMicroelectronics is a compact clock driver with 4 true outputs, operating b/w 2.5V and 3.6V. It features a dual terminal design in a small outline package, suitable for industrial applications with a max temp of 85 °C. Ideal for surface mount technology, it ensures reliable performance in various electronic devices.
1040
STANDARD
R-PDSO-G12
12
VSSOP
SOLCC12,.08,20
SMALL OUTLINE
2.8
2.5 V
Nickel/Palladium/Gold (Ni/Pd/Au)
2 mm
CDCM1804RTHT
CDCM1804RTHT clock driver by Texas Instruments features a 2.6 ns propagation delay, operates at 3.3V, and offers 24 terminals in a square package shape. Ideal for industrial applications requiring differential input conditioning and 800 MHz min fmax with a temperature range of -40 to 85 °C.
NOT SPECIFIED
.9 mm
CDC351IDBR
The Texas Instruments CDC351IDBR clock driver has a propagation delay of 4.2ns, operates at 3.3V, and offers 10 true outputs. Ideal for industrial applications requiring a small outline package with standard input conditioning and a max operating temperature of 85°C.
351
8.2 mm
50 pF
32 Amp
SSOP
SSOP24,.3
SMALL OUTLINE, SHRINK PITCH
25 mA
4.2 ns
.9 ns
BICMOS
5.3 mm
100 MHz
CDC351IDB
The Texas Instruments CDC351IDB clock driver has a propagation delay of 4.2 ns, operates at a nominal voltage of 3.3V, and features 24 terminals in a small outline package. Ideal for industrial applications requiring precise timing control with a load capacitance of 50 pF and max operating temperature of 85°C.
TUBE
MC100LVEP111FAG
Onsemi
MC100LVEP111FAG clock driver by Onsemi features 0.5 ns propagation delay, 2.5V nominal voltage, and 10 true outputs. Ideal for industrial applications requiring low profile flatpack design with differential mux input conditioning.
NECL MODE OPERATING RANGE: VCC = 0V WITH VEE = -2.375V TO -3.8V
100LVE
+-2.375/+-3.8
.5 ns
.025 ns
3.8 V
ECL
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
8 mm
6 Amp
64
265 mA
.95 ns
.06 ns
1.4 mm
CDCVF111FNG4
CDCVF111FNG4 clock driver by Texas Instruments features a propagation delay of 0.6 ns, operates at a supply voltage of 3.3V, and offers differential input conditioning. It is ideal for industrial applications requiring precise clock signal distribution in electronic systems.
111
S-PQCC-J28
11.505 mm
28
9
QCCJ
LDCC28,.5SQ
CHIP CARRIER
.6 ns
.05 ns
4.57 mm
J BEND
1.27 mm
650 MHz
CDCVF111FNRG4
CDCVF111FNRG4 clock driver by Texas Instruments has a propagation delay of 0.6 ns at 3.3V, suitable for industrial applications. With 9 true outputs and a min fmax of 650 MHz, it offers differential input conditioning in a square chip carrier package.
MC100EL11DG
MC100EL11DG clock driver by Onsemi features 0.34 ns propagation delay, 5V nominal voltage, and -40 to 85°C operating temperature range. Ideal for industrial applications requiring differential input conditioning and small outline package style.
NECL MODE: VCC=0 WITH VEE= -4.2V TO -5.7V
100EL
R-PDSO-G8
4.9 mm
SOP
SOP8,.25
-4.5
.34 ns
1.75 mm
5.7 V
4.2 V
3.9 mm
NBSG53AMNR2
NBSG53AMNR2 by Onsemi is a Clock Driver & Buffer with 0.275 ns Propagation Delay, 2.5V Nominal Voltage, and -40 to 85 °C Operating Temperature range. Ideal for applications requiring fast signal transmission in industrial settings.
NECL MODE: VCC = 0V WITH VEE = -2.375V TO -3.465V
53
S-XQCC-N16
e0
UNSPECIFIED
235
-2.5/-3.3/2.5/3.3
.285 ns
TIN LEAD
NBSG53AMN
NBSG53AMN clock driver by Onsemi features a propagation delay of 0.275 ns, operates at a supply voltage range of -2.5V to 3.3V, and has a terminal pitch of 0.5mm. Ideal for industrial applications requiring differential input conditioning and fast signal propagation in a compact chip carrier package with a low profile design.
NB6L16DR2
NB6L16DR2 clock driver by Onsemi features a propagation delay of 0.18 ns, operating temperature range of -40 to 85 °C, and ECL technology. Ideal for applications requiring differential input conditioning in industrial settings. Package style is small outline with 8 terminals and peak reflow temp of 235 °C.
6L
.18 ns
NB6L16DTR2
NB6L16DTR2 clock driver by Onsemi is a differential input conditioning device with a propagation delay of 0.18 ns. It operates in industrial temperature range (-40 to 85 °C) and has a supply voltage range of 2.375V to 3.465V, making it suitable for high-speed applications requiring precise timing control.
S-PDSO-G8
1.1 mm
NB6L16DT
NB6L16DT clock driver by Onsemi features a propagation delay of 0.18 ns, operating temperature range of -40 to 85 °C, and supply voltage from 2.375V to 3.465V. Ideal for industrial applications requiring differential input conditioning in a small outline package with gull wing terminals.
Tin/Lead (Sn90Pb10)
NB6L16D
NB6L16D clock driver by Onsemi features a propagation delay of 0.18 ns, operating temperature range of -40 to 85 °C, and differential input conditioning. Ideal for industrial applications requiring precise timing synchronization in compact designs.
CDCVF2509APWR
CDCVF2509APWR clock driver by Texas Instruments has a propagation delay of 3.9 ns, operates at a nominal voltage of 3.3V, and offers 9 true outputs. It is ideal for applications requiring precise timing control in electronic devices with load capacitance up to 25 pF.
2509
25 pF
SERIES-RESISTOR
3.9 ns
.1 ns
OTHER
175 MHz
CDCVF2509APW
The Texas Instruments CDCVF2509APW clock driver has a propagation delay of 3.9 ns, operates at a nominal voltage of 3.3V, and offers 9 true outputs. It is ideal for applications requiring precise timing control in electronic devices with surface mount capabilities.
NB6L11DR2
NB6L11DR2 clock driver by Onsemi features a propagation delay of 0.22 ns, operates at a nominal voltage of 2.5V, and has differential input conditioning. This small outline package with gull wing terminals is ideal for industrial applications requiring precise signal synchronization in tight spaces.
+-2.5/+-3.3
.2 ns
.015 ns
NB6L11DTR2
NB6L11DTR2 clock driver by Onsemi features a propagation delay of 0.22 ns, operates at a nominal voltage of 2.5V, and has differential input conditioning. This device is suitable for applications requiring precise clock signal distribution in industrial settings due to its small outline package and wide operating temperature range from -40 °C to 85°C.
TSSOP8,.19
MC100LVEP210FAG
MC100LVEP210FAG clock driver by Onsemi features 0.75 ns propagation delay, 2.5V nominal voltage, and ECL technology. Ideal for industrial applications requiring differential input conditioning and 32 terminals in a flatpack package style.
NECL MODE: VCC = 0V WITH VEE = -2.375V TO -3.8V
.43 ns
MAX9175EUB-T
Maxim Integrated
LOW SKEW CLOCK DRIVER; Temperature Grade: INDUSTRIAL; Terminal Form: GULL WING; No. of Terminals: 10; Package Code: TSSOP; Package Shape: SQUARE;
S-PDSO-G10
245
3.23 ns
.045 ns
CMOS
MC100E111FNG
MC100E111FNG clock driver by Onsemi features 0.66ns propagation delay, 5V nominal voltage, and -40 to 85°C operating temperature range. Ideal for industrial applications requiring differential input conditioning and 3-STATE output characteristics in a square chip carrier package.
NECL MODE: VCC = 0 V WITH VEE = -4.2 V TO -5.7 V
100E
.78 ns
.075 ns
MC10E111FNR2G
MC10E111FNR2G clock driver by Onsemi features 0.66ns propagation delay, 5V nominal voltage, and -40 to 85 °C operating temperature range. Ideal for industrial applications requiring differential input conditioning and 3-STATE output characteristics in a compact chip carrier package.
10E
-5.2
.68 ns
CDCVF2510APWR
Texas Instruments CDCVF2510APWR is a clock driver with 3.9ns propagation delay, suitable for applications requiring precise timing synchronization. It operates at 3.3V, offers 10 true outputs at 175MHz fmax, and has a compact rectangular package ideal for surface mount designs.
2510
Clock Driver
CDCVF2510APW
CDCVF2510APW by Texas Instruments is a clock driver with 3.9ns propagation delay, suitable for applications requiring precise timing. It operates at a nominal voltage of 3.3V and has 24 terminals in a small outline package style. With a load capacitance of 25pF, it offers series-resistor output characteristics and can handle up to 12A max I (ol).
MC100EL34DG
MC100EL34DG clock driver by Onsemi features 1.21ns propagation delay, operates at -40 to 85°C, and supports up to 1100MHz fmax. Ideal for industrial applications requiring differential input conditioning and a small outline package with gull wing terminals.
NECL MODE: VCC = 0V WITH VEE = -4.2V TO -5.7V
9.9 mm
SOP16,.25
1.2 ns
1100 MHz
MC10EL34DG
MC10EL34DG by Onsemi is a clock driver/buffer with a propagation delay of 1.21 ns and operates at a nominal voltage of 5V. It is commonly used in industrial applications that require high-speed signal transmission and precise timing control.
10EL
NB6L11DG
NB6L11DG clock driver by Onsemi features a propagation delay of 0.2 ns, operates at a nominal voltage of 2.5V, and has differential input conditioning. This small outline package with gull wing terminals is ideal for industrial applications requiring precise signal synchronization and low skew requirements.
TIN
NB6L11DTG
NB6L11DTG clock driver by Onsemi features a propagation delay of 0.2 ns, differential input conditioning, and operates at industrial temperature grade. With a package style of small outline and thin profile, it is suitable for applications requiring precise timing synchronization in electronic systems. The device has dual terminals with a terminal pitch of 0.65 mm and can operate within a supply voltage range of +-2.5/+-3.3 V.
NB6L11DTR2G
NB6L11DTR2G clock driver by Onsemi has a propagation delay of 0.22 ns, operates at a nominal voltage of 2.5V, and offers differential input conditioning. This small outline package with gull wing terminals is ideal for industrial applications requiring precise timing synchronization in electronic systems.
NB6L16DTG
NB6L16DTG clock driver by Onsemi is a differential input conditioning device with 0.18 ns propagation delay. It operates in industrial temperature range (-40 to 85 °C) and has a supply voltage of 2.5V, suitable for ECL technology applications. The small outline, thin profile package with gull wing terminals makes it ideal for high-speed clock distribution systems.
NB6L16DTR2G
NB6L16DTR2G clock driver by Onsemi is a differential input conditioning device with 0.18 ns propagation delay. Operating in industrial temperature range (-40 to 85 °C), it has 8 terminals, small outline package style, and supports a supply voltage range of 2.375V to 3.465V. Ideal for applications requiring precise clock signal distribution in electronic systems.
NB6L239MNR2
NB6L239MNR2 by Onsemi is a Clock Driver with 0.6 ns Propagation Delay, 2.5V Nominal Voltage, and 3000 MHz Min fmax. Ideal for applications requiring high-speed signal transmission in industrial settings due to its ECL technology and differential input conditioning.
.57 ns
3000 MHz
NB6L239MN
NB6L239MN by Onsemi is a Clock Driver with 0.6 ns Propagation Delay, 2.5V Nominal Voltage, and 3000 MHz Min fmax. Ideal for applications requiring high-speed signal synchronization in industrial settings.
NB6N239SMNR2G
NB6N239SMNR2G clock driver by Onsemi features a propagation delay of 0.78 ns, operates at 3.3V, and has a terminal pitch of 0.5 mm. Ideal for industrial applications requiring differential input conditioning and two true outputs with minimal skew.
6N
NICKEL GOLD PALLADIUM
NB6N239SMNR2
NB6N239SMNR2 clock driver by Onsemi features a low propagation delay of 0.78 ns, differential input conditioning, and operates at a nominal voltage of 3.3V. Ideal for industrial applications requiring precise timing synchronization in compact spaces due to its small square package shape and surface mount capability.
NB6N239SMN
NB6N239SMN clock driver by Onsemi features a low propagation delay of 0.78 ns, suitable for industrial applications. With 16 terminals and differential input conditioning, it operates at a nominal voltage of 3.3V. This surface-mount chip carrier supports peak reflow temperatures up to 235 °C.
CDCLVP1212RHAR
CDCLVP1212RHAR by Texas Instruments is a clock driver with 0.55 ns propagation delay, 2.5V nominal voltage, and 12 true outputs. It is used in applications requiring high-speed signal conditioning and differential multiplexing in industrial settings.
CDC
S-PQCC-N40
6 mm
OPEN-EMITTER
LCC40,.24SQ,20
88 mA
.55 ns
NICKEL PALLADIUM GOLD SILVER
2000 MHz
CDCLVP1212RHAT
CDCLVP1212RHAT by Texas Instruments is a clock driver with 0.55 ns propagation delay, 12 true outputs, and 2.5V nominal voltage. It is used in applications requiring high-speed differential mux input conditioning and operates within an industrial temperature range of -40 to 85°C.
CDC111FNRG4
CDC111FNRG4 clock driver by Texas Instruments operates at 3.3V, with a propagation delay of 0.6ns. It has 9 true outputs and is used in applications requiring differential input conditioning and a square package shape.
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