DS1882 MAXIM - Provides Low-Noise, Low-Distortion Digital Volume Control for Dual-Supply ApplicationsThe DS1882 isA dual, nonvolatile (NV) digital potentiometer designed to operate in audio systems that accomodate up to ±7V signal levels. The potentiometer settings can be stored in EEPROM so that they are retained when the power is cycled. The DS1882 has separate supplies for the potentiometers (VCC) and the communication circuitry (VDD). For clickless/popless operation,A zero-crossing detector allows the wiper position
DS18B20 Dallas - Programmable Resolution 1-wire Digital Thermometer
DS18B20-PAR MAXIM - 1-wire Parasite-power Digital Thermometer
DS2030Y-100 MAXIM - Single-Piece 256k Nonvolatile SRAM The DS2030 isA 256kb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface-mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the
DS2030Y-70 MAXIM - Single-Piece 256k Nonvolatile SRAM The DS2030 isA 256kb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface-mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the
DS2045AB MAXIM - Single-Piece 1Mb Nonvolatile SRAM The DS2045 isA 1Mb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the c
DS2045AB-100 MAXIM - Single-Piece 1Mb Nonvolatile SRAM The DS2045 isA 1Mb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the c
DS2045AB-70 MAXIM - Single-Piece 1Mb Nonvolatile SRAM The DS2045 isA 1Mb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the c
DS2045Y MAXIM - Single-Piece 1Mb Nonvolatile SRAM The DS2045 isA 1Mb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the c
DS2045Y-100 MAXIM - Single-Piece 1Mb Nonvolatile SRAM The DS2045 isA 1Mb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the c
DS2045Y-70 MAXIM - Single-Piece 1Mb Nonvolatile SRAM The DS2045 isA 1Mb reflowable nonvolatile (NV) SRAM, which consists ofA static RAM (SRAM), an NV controller, and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the SRAM from the external power source, and allows the contents of the SRAM to be modified. When VCC is powered down or out of tolerance, the c
DS2482S-800/TR MAXIM - Eight-channel 1-Wire Master The DS2482-800 is an I2C to 1-Wire Bridge Device That Interfaces Directly to Standard (100kHz Max) or Fast (400kHz Max) I2C Masters to Perform Bi-directional Protocol Conversion Between The i C Master and Any Downstream 1-Wire Slave Devices. Relative to Any Attached 1-Wire Slave Device, The DS2482-800 isA 1-Wire Master. Internal Factory-trimmed Timers Relieve The System Host Processor From Generating Time-critical 1-Wire Waveforms, Supporting Both Standard and Overdrive 1-Wire C
DS26C31 National Semiconductor - Cmos Quad Tri-state Differential Line Driver
DS26C31M National Semiconductor - CMOS Quad TRI-STATE Differential Line Driver
DS26C31ME/883 National Semiconductor - CMOS Quad Tri-state Differential Line Driver
DS26C31MJ/883 National Semiconductor - CMOS Quad Tri State Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26C31MJ-MLS National Semiconductor - CMOS Quad Tri State Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26C31MW/883 National Semiconductor - CMOS Quad Tri State Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26C31MWG/883 National Semiconductor - CMOS Quad Tri State Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26C31MW-MLS National Semiconductor - CMOS Quad Tri State Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26C31T National Semiconductor - CMOS Quad TRI-STATE Differential Line Driver
DS26C31TJ National Semiconductor - CMOS Quad Tri-state Differential Line Drivers, Package: Soic Narrow, Pin Nb=16
DS26C31TM National Semiconductor - CMOS Quad TRI-STATE Differential Line Driver
DS26C31TMX National Semiconductor - CMOS Quad Tri-state Differential Line Drivers, Package: Soic Narrow, Pin Nb=16
DS26C31TN National Semiconductor - CMOS Quad TRI-STATE Differential Line Driver
DS26C32A National Semiconductor - Quad Differential Line Receiver
DS26C32AC National Semiconductor - Quad Differential Line Receiver: 4 Receivers
DS26C32AM National Semiconductor - CMOS Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26C32AME/883 National Semiconductor - CMOS Quad Tri-state Differential Line Driver
DS26C32AMJ/883 National Semiconductor - CMOS Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26C32AMJ-MLS National Semiconductor - CMOS Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26C32AMW/883 National Semiconductor - CMOS Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26C32AMWG/883 National Semiconductor - CMOS Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26C32AMW-MLS National Semiconductor - CMOS Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26C32AT National Semiconductor - Quad Differential Line Receiver
DS26C32ATJ National Semiconductor - CMOS Quad Differential Line Receivers, Package: Soic Narrow, Pin Nb=16
DS26C32ATM National Semiconductor - Quad Differential Line Receiver
DS26C32ATMX National Semiconductor - CMOS Quad Differential Line Receivers, Package: Soic Narrow, Pin Nb=16
DS26C32ATN National Semiconductor - Quad Differential Line Receiver
DS26F31 National Semiconductor - Quad High Speed Differential Line Drivers
DS26F31M National Semiconductor - Quad High Speed Differential Line Drivers
DS26F31ME/883 National Semiconductor - Quad High Speed Differential Line Drivers
DS26F31MJ National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26F31MJ/883 National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26F31MW/883 National Semiconductor - Quad High Speed Differential Line Drivers
DS26F31MW-MLS National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26F32C National Semiconductor - Quad Differential Line Receiver
DS26F32CJ National Semiconductor - Quad Differential Line Receiver
DS26F32M National Semiconductor - Quad Differential Line Receiver
DS26F32M National Semiconductor - Quad Differential Line Receivers
DS26F32ME National Semiconductor - Quad Differential Line Receiver
DS26F32ME883 National Semiconductor - Quad Differential Line Receiver
DS26F32MER-QML National Semiconductor - Quad Differential Line Receivers Also Available Guaranteed To 100k Rad(si) Tested To Mil-std-883, Method 1019.5, Condition A
DS26F32MJ National Semiconductor - Quad Differential Line Receiver
DS26F32MJ883 National Semiconductor - Quad Differential Line Receiver
DS26F32MJ-MLS National Semiconductor - Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26F32MJ-QMLV National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26F32MJR-QML National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26F32MJRQMLV National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26F32MW National Semiconductor - Quad Differential Line Receiver
DS26F32MW883 National Semiconductor - Quad Differential Line Receiver
DS26F32MWFQMLV National Semiconductor - DS26LS32M - Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26F32MWGRQMLV National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26F32MW-MLS National Semiconductor - Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26F32MW-QMLV National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26F32MWR-QML National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26F32MWRQMLV National Semiconductor - QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A
DS26LS31 National Semiconductor - Quad High Speed Differential Line Driver
DS26LS31C National Semiconductor - Quad High Speed Differential Line Driver
DS26LS31CJ National Semiconductor - Quad High Speed Differential Line Drivers, Package: Soic Narrow, Pin Nb=16
DS26LS31CM National Semiconductor - Quad High Speed Differential Line Driver
DS26LS31CMX National Semiconductor - Quad High Speed Differential Line Drivers, Package: Soic Narrow, Pin Nb=16
DS26LS31CN National Semiconductor - Quad High Speed Differential Line Driver
DS26LS31M National Semiconductor - Quad High Speed Differential Line Driver
DS26LS31ME National Semiconductor - Quad High Speed Differential Line Driver
DS26LS31ME883 National Semiconductor - QUAD HIGH SPEED DIFFERENTIAL LINE DRIVER
DS26LS31MJ National Semiconductor - QUAD HIGH SPEED DIFFERENTIAL LINE DRIVER
DS26LS31MJ883 National Semiconductor - QUAD HIGH SPEED DIFFERENTIAL LINE DRIVER
DS26LS31MJ-MLS National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26LS31MJ-QMLV National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26LS31MJ-SMD National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26LS31MW National Semiconductor - QUAD HIGH SPEED DIFFERENTIAL LINE DRIVER
DS26LS31MW883 National Semiconductor - QUAD HIGH SPEED DIFFERENTIAL LINE DRIVER
DS26LS31MW-MLS National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26LS31MW-QMLV National Semiconductor - Quad High Speed Differential Line Drivers, Package: Lcc, Pin Nb=20
DS26LS32 National Semiconductor - Quad Differential Line Receivers
DS26LS32A National Semiconductor - Quad Differential Line Receiver: 4 Receivers
DS26LS32AC National Semiconductor - Quad Differential Line Receivers
DS26LS32AC National Semiconductor - Quad Differential Line Receivers
DS26LS32ACM National Semiconductor - Quad Differential Line Receivers
DS26LS32ACM National Semiconductor - Quad Differential Line Receivers
DS26LS32ACMX National Semiconductor - Quad Differential Line Receivers, Package: Soic Narrow, Pin Nb=16
DS26LS32ACN National Semiconductor - Quad Differential Line Receivers
DS26LS32ACN National Semiconductor - Quad Differential Line Receivers
DS26LS32C National Semiconductor - Quad Differential Line Receivers
DS26LS32C National Semiconductor - Quad Differential Line Receivers
DS26LS32CM National Semiconductor - Quad Differential Line Receivers
DS26LS32CM National Semiconductor - Quad Differential Line Receivers
DS26LS32CMX National Semiconductor - Quad Differential Line Receivers, Package: Soic Narrow, Pin Nb=16
DS26LS32CN National Semiconductor - Quad Differential Line Receivers
DS26LS32CN National Semiconductor - Quad Differential Line Receivers
DS26LS32M National Semiconductor - Quad Differential Line Receivers
DS26LS32ME/883 National Semiconductor - Quad Differential Line Receivers
DS26LS32MJ National Semiconductor - Quad Differential Line Receivers
DS26LS32MJ/883 National Semiconductor - Quad Differential Line Receivers
DS26LS32MW/883 National Semiconductor - DS26F32M - Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26LS32MW-MLS National Semiconductor - Quad Differential Line Receivers, Package: Lcc, Pin Nb=20
DS26LS33 National Semiconductor - Quad Differential Line Receiver: 4 Receivers
DS26LS33A National Semiconductor - Quad Differential Line Receiver: 4 Receivers
DS26LS33AC National Semiconductor - Quad Differential Line Receivers
DS26LS33ACM National Semiconductor - Quad Differential Line Receivers
DS26LS33ACN National Semiconductor - Quad Differential Line Receivers
DS26LS33ACN National Semiconductor - Quad Differential Line Receivers
DS26LS33C National Semiconductor - Quad Differential Line Receivers
DS26LS33CN National Semiconductor - Quad Differential Line Receivers
DS26LS33M National Semiconductor - Quad Differential Line Receivers
DS26LS33MJ National Semiconductor - Quad Differential Line Receivers
DS26LS33MJ/883 National Semiconductor - Quad Differential Line Receivers, Package: Cerdip, Pin Nb=16
DS26LS33ML/883 National Semiconductor - Quad Differential Line Receivers, Package: Cerdip, Pin Nb=16
DS26LS33MW/883 National Semiconductor - Quad Differential Line Receivers, Package: Cerdip, Pin Nb=16
DS26LV3 National Semiconductor - 3v Enhanced Cmos Quad Differential Line Driver
DS26LV3 National Semiconductor - 3v Enhanced Cmos Quad Differential Line Receiver
DS26LV31 National Semiconductor - 3V Enhanced CMOS Quad Differential Line Driver, Package: Cerpack, Pin Nb=16
DS26LV31T National Semiconductor - 3V Enhanced CMOS Quad Differential Line Driver
DS26LV31TM National Semiconductor - 3V Enhanced CMOS Quad Differential Line Driver
DS26LV31TMX National Semiconductor - 3V Enhanced CMOS Quad Differential Line Driver, Package: Soic Narrow, Pin Nb=16
DS26LV31TN National Semiconductor - 3V Enhanced CMOS Quad Differential Line Driver, Package: Soic Narrow, Pin Nb=16
DS26LV31W National Semiconductor - 3V Enhanced CMOS Quad Differential Line Driver
DS26LV32 National Semiconductor - 3V Enhanced CMOS Quad Differential Line Receiver
DS26LV32AT National Semiconductor - 3V Enhanced CMOS Quad Differential Line Receiver
DS26LV32ATM National Semiconductor - 3V Enhanced CMOS Quad Differential Line Receiver
DS26LV32ATMX National Semiconductor - 3V Enhanced CMOS Quad Differential Line Receiver, Package: Soic Narrow, Pin Nb=16
DS26LV32ATN National Semiconductor - 3V Enhanced CMOS Quad Differential Line Receiver, Package: Soic Narrow, Pin Nb=16
DS26LV32AW National Semiconductor - 3V Enhanced CMOS Quad Differential Line Receiver
DS26S10 National Semiconductor - Quad Bus Transceiver
DS26S10C National Semiconductor - Quad Bus Transceivers
DS26S10M National Semiconductor - Quad Bus Transceivers
DS26S10N National Semiconductor - Quad Bus Transceiver
DS2703 Dallas - Sha-1 Battery Pack Authentication Ic
DS2703U Dallas - SHA-1 Battery Pack Authentication IC
DS2703UR Dallas - SHA-1 Battery Pack Authentication IC
DS2703UT Dallas - SHA-1 Battery Pack Authentication IC
DS2703U/T&R MAXIM - SHA-1 Battery Pack Authentication ICThe DS2703 providesA robust cryptographic solution to ensure the authenticity of Li-Ion battery packs for cell phone, PDA, and portable computing devices. The DS2703 employs the Secure Hash Algorithm (SHA-1) specified in the Federal Information publication 180-1 and 180-2, and ISO/IEC 10118-3. SHA-1 is designed for authentication just what is required for identifying battery packs manufactured by authorized sources. The device\'s SHA-1 engine processesA host transmitted
DS2704 MAXIM - 1280-bit Eeprom With Sha-1 Authentication
DS2704W MAXIM - 1280-Bit EEPROM with SHA-1 Authentication
DS2715Z+T&R MAXIM - NiMH Battery Pack Charge Controller The DS2715 is well suited for cost-sensitive charger applications where the battery is either internal or inA unique battery pack. It has been optimized for safe reliable charging of 1 to 10 NiMH cells in Series. The DS2715 has an internal gain block that can be selected as eitherA comparator or transconductance amplifier for charge current regulation. The DS2715 is configurable asA switched DC charger,A linear current regulator, orA switchmode current source. The DS
DS2720 Dallas - Efficient, Addressable Single-cell Rechargeable Lithium Protection Ic
DS2720AU Dallas - Efficient, Addressable Single-Cell Rechargeable Lithium Protection IC
DS2720BU Dallas - Efficient, Addressable Single-Cell Rechargeable Lithium Protection IC
DS2720CU Dallas - Efficient, Addressable Single-Cell Rechargeable Lithium Protection IC
DS2745U+ MAXIM - Low Cost I2C Battery Monitor The DS2745 provides current-flow, voltage, and temperature measurement data to support battery-capacity monitoring in cost-sensitive applications. The DS2745 can be mounted on either the host side or pack side of the application. Current measurement and coulomb counting is accomplished by monitoring the voltage drop across an external sense resistor, voltage measurement is accomplished throughA separate voltage-sense input, and temperature measurement takes place on-chip.A sta
DS2745U+/T&R MAXIM - Low Cost I2C Battery Monitor The DS2745 provides current-flow, voltage, and temperature measurement data to support battery-capacity monitoring in cost-sensitive applications. The DS2745 can be mounted on either the host side or pack side of the application. Current measurement and coulomb counting is accomplished by monitoring the voltage drop across an external sense resistor, voltage measurement is accomplished throughA separate voltage-sense input, and temperature measurement takes place on-chip.A sta
DS2746 MAXIM - Battery Fuel Gauge Has Two Auxiliary Inputs for Convenient Measurement ofA Thermistor or Other Voltage SourceThe DS2746 provides system-side battery capacity monitoring in cost-sensitive applications. Voltage, bidirectional current, and accumulated current measurement data is provided to the host processor overA 2-wire interface. Offset bias and offset blanking features greatly enhance the accuracy of the coulomb counter. In addition, the DS2746 has two auxiliary A/D inputs to sample the pack identificati
DS2756 MAXIM - High-Accuracy Battery Fuel Gauge with Programmable Suspend ModeThe DS2756 high-precision battery fuel gauge isA data-acquisition and information-storage device tailored for cost-sensitive and space-constrained 1-cell Li+/polymer battery-pack applications. The DS2756 provides the key hardware components required to accurately estimate remaining capacity by integrating low-power, precision measurements of temperature, voltage, current, and current accumulation, as well as nonvolatile (NV) data storage, into
DS2780E/T&R MAXIM - Stand-Alone Fuel Gauge ICThe DS2780 measures voltage, temperature, and current, and estimates available capacity for rechargeable lithium-ion (Li+) and lithium-ion polymer batteries. Cell characteristics and application parameters used in the calculations are stored in the on-chip EEPROM. The available capacity registers reportA conservative estimate of the amount of charge that can be removed given the current temperature, discharge rate, stored charge, and application parameters. Capacity estimation is r
DS2781 MAXIM - 1-cell Or 2-cell Standalone Fuel Gauge Ic
DS2781E MAXIM - 1-Cell or 2-Cell Standalone Fuel Gauge IC
DS2781E+T&R MAXIM - 1-Cell or 2-Cell Standalone Fuel Gauge IC The DS2781 measures voltage, temperature, and current, and estimates available capacity for rechargeable Lithium-Ion and Lithium-Ion Polymer batteries. Cell stack characteristics and application parameters used in the calculations are stored in on-chip EEPROM. The available capacity registers reportA conservative estimate of the amount of charge that can be removed given the current temperature, discharge rate, stored charge and application parameters. Capacity est
DS28CM00 MAXIM - I2C/SMBus Silicon Serial NumberUnique 64-bit factory lasered in each part. Perfect low-cost solution for embedded applications requiring an electronic serial number. The DS28CM00 isA low-cost, electronic registration number to provide an absolutely unique identity that can be determined with the industry standard I2C* and SMBus™ interface. The registration number isA factory-lasered, 64-bit ROM that includesA unique 48-bit serial number, an 8-bit CRC, and an 8-bit family code (70h). In SMBus mode, the DS
DS28CZ04 MAXIM - I2C 4kbit EEPROM with 4 I/O port expanderMultifunction, Integrated Features Reduce Component Count, Save Board Space, and Lower Overall System Cost The DS28CZ04 combines 4kbit (512 x 8) EEPROM with 4 PIO lines. Communication with the device is accomplished with an industry standard I2C* and SMBus™ interface. The memory is organized as two segments of 256 bytes with single byte and up to 16-byte block write capability. Individual PIO lines may be configured as inputs or outputs. The power-on state of PIO pro
DS28E04-100 Dallas - 4096-bit Addressable 1-wire Eeprom With Pio
DS28E04S-100 Dallas - 4096-Bit Addressable 1-Wire EEPROM with PIO
DS28E04S-100/T&R MAXIM - 4096-Bit Addressable 1-Wire EEPROM with PIO The DS28E04-100 isA 4096-bit, 1-Wire® EEPROMchip with seven address inputs. The address inputsare directly mapped into the 1-Wire 64-bit Device IDNumber to easily enable the host system to identifythe physical location or functional association of theDS28E04-100 inA multidevice 1-Wire network environment.The 4096-bit EEPROM array is configuredas 16 pages of 32 bytes withA 32 byte scratchpad toperform write operations. EEPROM memory pagescan be individually writ
DS2907SA Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SA46 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SA48 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SA50 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SA52 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SZ Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SZ46 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SZ48 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SZ50 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2907SZ52 Linear IS - Rectifier Diodes - 6000VThe diode (rectifier) voltages shown below represent the maximum for each group. Each table shows the voltage range for each diode (rectifier) type in ascending current order. To view other diodes (rectifiers) click on the required maximum voltage shown below.
DS2E-DC12V IXYS - Time-delay0.04-10 Amps RMS48-280 Volts RMS3.5-15 Control - Volts DC
DS2Y Nais - 2 Form C Contact High Sensitivity-200 Mw Nominal Operating Power
DS2Y-S-DC12V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC1.5V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC24V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC3V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC48V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC5V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC6V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-S-DC9V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC12V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC1.5V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC24V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC3V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC48V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC5V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC6V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS2Y-SL2-DC9V Nais - 2 Form C contact High sensitivity-200 mW nominal operating power
DS3030 MAXIM - 3.3V Single-Piece 256kb Nonvolatile SRAM with Clock The DS3030W consists ofA static RAM,A nonvolatile (NV) controller,A year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the clock and SRAM from the external power source, and allows the contents of the clock registers or SRAM to be modified. W
DS3030W-100 MAXIM - 3.3V Single-Piece 256kb Nonvolatile SRAM with Clock The DS3030W consists ofA static RAM,A nonvolatile (NV) controller,A year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface- mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the clock and SRAM from the external power source, and allows the contents of the clock registers or SRAM to be modified. W
DS3045W MAXIM - 3.3v Single-piece 1mb Nonvolatile Sram With Clock
DS3045W-100 MAXIM - 3.3V Single-Piece 1Mb Nonvolatile SRAM with Clock
DS3050W MAXIM - 3.3v Single-piece 4mb Nonvolatile Sram With Clock
DS3050W-100 MAXIM - 3.3V Single-Piece 4Mb Nonvolatile SRAM with Clock
DS3065W MAXIM - 3.3v Single-piece 8mb Nonvolatile Sram With Clock
DS3065W-100 MAXIM - 3.3V Single-Piece 8Mb Nonvolatile SRAM with Clock
DS3070W MAXIM - The DS3070W consists ofA static RAM,A nonvolatile (NV) controller,A year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface-mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the clock and SRAM from the external power source, and allows the contents of the clock registers or SRAM to be modified. When VCC is powered down or out-of-tolerance, the cont
DS3070W-100 MAXIM - The DS3070W consists ofA static RAM,A nonvolatile (NV) controller,A year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased inA surface-mount module withA 256-ball BGA footprint. Whenever VCC is applied to the module, it recharges the ML battery, powers the clock and SRAM from the external power source, and allows the contents of the clock registers or SRAM to be modified. When VCC is powered down or out-of-tolerance, the cont
DS-308 M/A-COM - Three-Way Power Divider, 1 - 300 MHZ
DS-308BNC M/A-COM - Three-Way Power Dividers 1 - 300 MHz
DS-308N M/A-COM - Three-Way Power Dividers 1 - 300 MHz
DS-308SMA M/A-COM - Three-Way Power Dividers 1 - 300 MHz
DS-309 M/A-COM - Eight-way Power Divider 2 - 500 Mhz
DS-309BNC M/A-COM - Eight-Way Power Divider 2 - 500 MHz
DS-309N M/A-COM - Eight-Way Power Divider 2 - 500 MHz
DS-309SMA M/A-COM - Eight-Way Power Divider 2 - 500 MHz
DS-309TNC M/A-COM - Eight-Way Power Divider 2 - 500 MHz
DS3100 MAXIM - Stratum 3/3E Timing-Card ICWhen paired with an external TCXO or OCXO, the DS3100 isA complete central timing and synchronization solution for SONET/SDH network elements. With two multiprotocol BITS/SSU receivers and 14 input clocks, the device directly accepts both external timing and line timing fromA large number of line cards. All input clocks are continuously monitored for frequency accuracy and activity. Any two of the input clocks can be selected as the references for the two core DPLLs. The T0 DPLL
DS3100DK MAXIM - Stratum 3/E3 Timing Card IC Demo Kit
DS32506 MAXIM - The DS32506 (6 port), DS32508 (8 port), and DS32512 (12 port) line interface units (LIUs) are highly integrated, low-power, feature-rich LIUs for DS3, E3, and STS-1 applications. Each LIU port in these devices has independent receive and transmit paths,A jitter attenuator, full-featured pattern generator and detector, performance-monitoring counters, andA complete set of loopbacks. An on-chip clock adapter generates all line-rate clocks fromA single input clock. Ports are independently software configura
DS32508 MAXIM - The DS32506 (6 port), DS32508 (8 port), and DS32512 (12 port) line interface units (LIUs) are highly integrated, low-power, feature-rich LIUs for DS3, E3, and STS-1 applications. Each LIU port in these devices has independent receive and transmit paths,A jitter attenuator, full-featured pattern generator and detector, performance-monitoring counters, andA complete set of loopbacks. An on-chip clock adapter generates all line-rate clocks fromA single input clock. Ports are independently software configura
DS32512 MAXIM - The DS32506 (6 port), DS32508 (8 port), and DS32512 (12 port) line interface units (LIUs) are highly integrated, low-power, feature-rich LIUs for DS3, E3, and STS-1 applications. Each LIU port in these devices has independent receive and transmit paths,A jitter attenuator, full-featured pattern generator and detector, performance-monitoring counters, andA complete set of loopbacks. An on-chip clock adapter generates all line-rate clocks fromA single input clock. Ports are independently software configura
DS42BR400 National Instruments - Quad Transceiver with Input Equalization and Output De-EmphasisThe DS42BR400 isA quad 2...
DS42BR400TSQ National Instruments - Quad Transceiver with Input Equalization and Output De-EmphasisThe DS42BR400 isA quad 2...
DS42MB200 National Semiconductor - Dual 4.25 Gb/s 1:2 Mux/buffer With Input Equalization and Output Pre-emphasis
DS42MB200TSQ National Semiconductor - The DS42MB200 isA dual signal conditioning 2:1 multiplexer and 1:2 fan-out buffer designed for use in backplane redundancy applications. Signal conditioning features include input equalization and programmable output pre-emphasis that enable data communication in FR4 backplanes up to 4 Gb/s. Each input stage hasA fixed equalizer to reduce ISI distortion from board traces. All output drivers have 4 selectable steps of pre-emphasis to compensate for transmission losses from long FR4 backplanes and reduce de
DS4301 Dallas - Nonvolatile, 32-position Digital Potentiometer
DS4301U-200 Dallas - Nonvolatile, 32-Position Digital Potentiometer
DS4302 MAXIM - 2-wire, 5-bit Dac With Three Digital Outputs
DS4302U-019 MAXIM - 2-Wire, 5-Bit DAC with Three Digital Outputs
DS4302U-020 MAXIM - 2-Wire, 5-Bit DAC with Three Digital Outputs
DS4302Z-019 MAXIM - 2-Wire, 5-Bit DAC with Three Digital Outputs
DS4302Z-020 MAXIM - 2-Wire, 5-Bit DAC with Three Digital Outputs
DS4303K MAXIM - Voltage Sample and Infinite Hold The DS4303 isA nonvolatile (NV) sample and infinite-hold adjustable voltage reference. The reference voltage is programmed in-circuit during factory calibration/ programming. Programming the reference voltage, VOUT, is as simple as applying the desired voltage on VIN and toggling the adjust pin (ADJ-bar) to lock the VOUT voltage level indefinitely, even if the device is power cycled. The DS4303 replaces current cumbersome factory adjustment arrangements withA low-cost solu
DS4303R/T&R MAXIM - Voltage Sample and Infinite Hold The DS4303 isA nonvolatile (NV) sample and infinite-hold adjustable voltage reference. The reference voltage is programmed in-circuit during factory calibration/ programming. Programming the reference voltage, VOUT, is as simple as applying the desired voltage on VIN and toggling the adjust pin (ADJ-bar) to lock the VOUT voltage level indefinitely, even if the device is power cycled. The DS4303 replaces current cumbersome factory adjustment arrangements withA low-cost solu
DS4305 MAXIM - Sample-and-infinite Hold Voltage Reference