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CS630

  

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EX128-FCS64 [ex Family FPGAs ]

other parts : EX128-FCS100  EX128-FCS100I  EX128-FCS100PP  EX128-FCS128  EX128-FCS128I  EX128-FCS128PP  EX128-FCS49 

ETC1
Unspecified

General Description
The eX family of FPGAs is a low-cost solution for low-power, high-performance designs. The inherent low power attributes of the antifuse technology, coupled with an additional low static power mode, make these devices ideal for power-sensitive applications. Fabricated with an advanced 0.22µCMOS antifuse technology, these devices achieve high performance with no power penalty.

Features
• High-Performance, Low-Power Antifuse FPGA
• LP/Sleep Mode for Additional Power Savings
• Advanced Small-footprint Packages
• Hot-Swap Compliant I/Os
• Single-Chip Solution
• Nonvolatile
• Live on power up
• Power-Up/Down Friendly (No Sequencing Required for Supply Voltages)
• Configurable Weak-Resistor Pull-Up or Pull-Down for Tristated Outputs during Power Up
• Individual Output Slew Rate Control
• 2.5V, 3.3V, and 5.0V Mixed Voltage Operation with 5.0V Input Tolerance and 5.0V Drive Strength
• Software Design Support with Actel Designer Series and Libero Tools
• Up to 100% Resource Utilization with 100% Pin Locking
• Deterministic Timing
• Unique In-System Diagnostic and Verification Capability with Silicon Explorer II
• Boundary Scan Testing in Compliance with IEEE Standard 1149.1 (JTAG)
• Secure Programming Technology Prevents Reverse Engineering and Design Theft

Leading Edge Performance
•240 MHz System Performance
• 3.9ns Clock-to-Out (Pad-to-Pad)
• 350 MHz Internal Performance

Specifications
• 3,000 to 12,000 Available System Gates
• As Many as 512 Maximum Flip-Flops (Using CC Macros)
• 0.22µCMOS Process Technology
• Up to 132 User-Programmable I/O Pins

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WJ1161CS6VDC.25 [CIT RELAY & SWITCH ]

other parts : WJ116  WJ1161AS12VDC.25  WJ1161AS12VDC.53  WJ1161AS18VDC.25  WJ1161AS18VDC.53  WJ1161AS24VDC.25  WJ1161AS24VDC.53 

CIT
CIT Relay and Switch

FEATURES:
• Switching capacity up to 10A
• Low profile and narrow width
• High dielectric strength
• Withstands up to 10kV surge

 

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NM93CS66EM8 [4096-Bit Serial CMOS EEPROM (MICROWIRE™ Synchronous Bus) ]

other parts : NM93C66  NM93C66E  NM93C66EM  NM93C66EM8  NM93C66EM8X  NM93C66EMT8  NM93C66EN 

Fairchild
Fairchild Semiconductor

General Description
NM93C66 is a 4096-bit CMOS non-volatile EEPROM organized as 256 x 16-bit array. This device features MICROWIRE interface which is a 4-wire serial bus with chipselect (CS), clock (SK), data input (DI) and data output (DO) signals. This interface is compat ible to many of standard Microcontrollers and Microprocessors. There are 7 instructions implemented on the NM93C66 for various Read, Write, Erase, and Write Enable/Disable operations. This device is fabricated using Fairchild Semiconductor floating-gate CMOS process for high reliability, high endurance and low power consumption.
“LZ” and “L” versions of NM93C66 offer very low standby current making them suitable for low power applications. This device is offered in both SO and TSSOP packages for small space consid erations.

Features
■ Wide VCC 2.7V - 5.5V
■ Typical active current of 200µA
   10µA standby current typical
   1µA standby current typical (L)
   0.1µA standby current typical (LZ)
■ No Erase instruction required before Write instruction
■ Self timed write cycle
■ Device status during programming cycles
■ 40 year data retention
■ Endurance: 1,000,000 data changes
■ Packages available: 8-pin SO, 8-pin DIP, 8-pin TSSOP

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NT73CS6DC12 [Superminiature, High power. / Low coil power consumption. ]

other parts : JQC-3FC  NT73  NT73AS10DC12  NT73AS10DC12F  NT73AS10DC24  NT73AS10DC24F  NT73AS10DC3 

DBLECTRO
DB Lectro Inc

Features
■ Superminiature, High power.
■ Low coil power consumption.
■ PC board mounting.
■ Suitable for household appliance, automation system, electronic equipment, instrument and meter, communication facilities and remote control facilities.

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LT6236CS6 [Rail-to-Rail Output 215MHz, 1.1nV/√Hz Op Amp/SAR ADC Driver ]

other parts : LT6236  LT6236CS6-TRMPBF  LT6236CS6-TRPBF  LT6236HS6  LT6236HS6-TRMPBF  LT6236HS6-TRPBF  LT6236IS6 

Linear
Linear Technology

Description
The LT®6236/LT6237/LT6238 are  single/dual/quad  low noise, rail-to-rail output op amps that feature1.1nV/√Hz input referred noise voltage density and draw only3.5mA of supply current per amplifier. These amplifiers combine very low noise and supply current with a215MHz gain bandwidth product and a70V/µs slew rate. Low noise, fast settling time and low offset voltage make this amplifier optimal to drive low noise, high speed SAR ADCs. The LT6236 includes a shutdown feature that can be used to reduce the supply current to less than 10µA.

FeaTures
Low Noise: 1.1nV/√Hz
Low Supply Current: 3.5mA/Amp Max
Low Offset Voltage: 350µV Max
Fast Settling Time: 570ns to 18-Bit, 2VP-POutput
Low Distortion: THD = –116.8dB at 2kHz
Wide Supply Range: 3V to 12.6V
Output Swings Rail-to-Rail
215MHz Gain-Bandwidth Product
Specified Temperature Range: –40°C to 125°C
LT6236 Shutdown to 10µA Max
LT6236 in Low Profile (1mm) ThinSOT™ Package
Dual LT6237 in 3mm ×3mm 8-Lead DFN and 8-Lead MSOP Packages
LT6238 in 16-Lead SSOP Package

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M95256-CS6G/A [256 Kbit serial SPI bus EEPROM with high-speed clock ]

other parts : M95256  M95256-CS3G/A  M95256-CS3G/AB  M95256-CS3G/K  M95256-CS3P/A  M95256-CS3P/AB  M95256-CS3P/K 

ST-Microelectronics
STMicroelectronics

 Description
The M95256, M95256-W, M95256-R and M95256-DR are electrically erasable programmable memory (EEPROM) devices. They are accessed by a high speed SPI compatible bus. Their memory array is organized as 32768 × 8 bits. The M95256-DR also offers an additional page, named the Identification Page (64 bytes) which can be written and (later) permanently locked in Read-only mode. This Identification Page offers flexibility in the application board production line, as the Identification Page can be used to store unique identification parameters and/or parameters specific to the production line.

Features
■ Compatible with the Serial Peripheral Interface (SPI) bus
■ Memory array
– 256 Kb (32 Kbytes) of EEPROM
– Page size: 64 bytes
■ Additional Write lockable Page (Identification page)
■ Write
– Byte Write within 5 ms
– Page Write within 5 ms
■ Write Protect: quarter, half or whole memory array
■ High-speed clock frequency (20 MHz)
■ Single supply voltage: 1.8 V to 5.5 V
■ More than 1 Million Write cycles
■ More than 40-year data retention
■ Enhanced ESD Protection
■ Packages
–ECOPACK2® (RoHS compliant and Halogen-free)

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NM93CS66AEM8 [4K-Bit Serial CMOS EEPROM (MICROWIRE™ Synchronous Bus) ]

other parts : NM93C66A  NM93C66AE  NM93C66AEM8  NM93C66AEMT8  NM93C66AEN  NM93C66AL  NM93C66ALE 

Fairchild
Fairchild Semiconductor

General Description
NM93C66A is a 4096-bit CMOS non-volatile EEPROM organized as 256 x 16-bit array. This device features MICROWIRE interface which is a 4-wire serial bus with chipselect (CS), clock (SK), data input (DI) and data output (DO) signals. This interface is compat ible to many of standard Microcontrollers and Microprocessors. This device offers a pin (ORG), using which, the user can select the format of the data (16-bit or 8-bit). If ORG is tied to GND, then 8-bit format is selected, while if ORG is tied to VCC, then 16-bit format is selected. There are 7 instructions implemented on the NM93C66A for various Read, Write, Erase, and Write Enable/Disable operations. This device is fabricated using Fairchild Semiconductor floating-gate CMOS process for high reliability, high endurance and low power consumption.
“LZ” and “L” versions of NM93C66A offer very low standby current making them suitable for low power applications. This device is offered in both SO and TSSOP packages for small space consid erations.

Features
■ Wide VCC 2.7V - 5.5V
■ User selectable organization
   x16 (ORG = 1)
   x8 (ORG = 0)
■ Typical active current of 200µA
   10µA standby current typical
   1µA standby current typical (L)
   0.1µA standby current typical (LZ)
■ No Erase instruction required before Write instruction
■ Self timed write cycle
■ Device status during programming cycles
■ 40 year data retention
■ Endurance: 1,000,000 data changes
■ Packages available: 8-pin SO, 8-pin DIP, 8-pin TSSOP

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LT1395CS6 [Single/Dual/Quad 400MHz Current Feedback Amplifier ]

other parts : LT1395  LT1395C  LT1395CS5  LT1395CS5-PBF  LT1395CS5-TR  LT1395CS5-TRPBF  LT1395CS6-PBF 

Linear
Linear Technology

DESCRIPTION
The LT ®1395/LT1396/LT1397 are single/dual/quad 400MHz current feedback amplifiers with an 800V/µs slew rate and the ability to drive up to 80mA of output current. The LT1395/LT1396/LT1397 operate on all supplies from a single 4V to ±6V. At ±5V, they draw 4.6mA of supply current per amplifier. The LT1395CS6 also adds a shutdown pin. When disabled, the LT1395CS6 draws virtually zero supply current and its output becomes high impedance. The LT1395CS6 will turn on in only 30ns and turn off in 40ns, making it ideal in spread spectrum and portable equipment applications.

FEATURES
■ 400MHz Bandwidth on ±5V (AV = 1)
■ 350MHz Bandwidth on ±5V (AV = 2, –1)
■ 0.1dB Gain Flatness: 100MHz (AV = 1, 2 and –1)
■ High Slew Rate: 800V/µs
■ Wide Supply Range: ±2V(4V) to ±6V(12V)
■ 80mA Output Current
■ Low Supply Current: 4.6mA/Amplifier
■ LT1395: SO-8, TSOT23-5 and TSOT23-6 Packages
LT1396: SO-8, MSOP and Tiny 3mm × 3mm × 0.75mm DFN-8 Packages
LT1397: SO-14, SSOP-16 and Tiny 4mm × 3mm × 0.75mm DFN-14 Packages

APPLICATIONS
■ Cable Drivers
■ Video Amplifiers
■ MUX Amplifiers
■ High Speed Portable Equipment
■ IF Amplifiers

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EX128-FCS64 [ex Family FPGAs ]

other parts : EX128-FCS100  EX128-FCS100I  EX128-FCS100PP  EX128-FCS128  EX128-FCS128I  EX128-FCS128PP  EX128-FCS49 

ACTEL
Actel Corporation

General Description
The eX family of FPGAs is a low-cost solution for low-power, high-performance designs. The inherent low power attributes of the antifuse technology, coupled with an additional low static power mode, make these devices ideal for power-sensitive applications. Fabricated with an advanced 0.22µCMOS antifuse technology, these devices achieve high performance with no power penalty.

Features
• High-Performance, Low-Power Antifuse FPGA
• LP/Sleep Mode for Additional Power Savings
• Advanced Small-footprint Packages
• Hot-Swap Compliant I/Os
• Single-Chip Solution
• Nonvolatile
• Live on power up
• Power-Up/Down Friendly (No Sequencing Required for Supply Voltages)
• Configurable Weak-Resistor Pull-Up or Pull-Down for Tristated Outputs during Power Up
• Individual Output Slew Rate Control
• 2.5V, 3.3V, and 5.0V Mixed Voltage Operation with 5.0V Input Tolerance and 5.0V Drive Strength
• Software Design Support with Actel Designer Series and Libero Tools
• Up to 100% Resource Utilization with 100% Pin Locking
• Deterministic Timing
• Unique In-System Diagnostic and Verification Capability with Silicon Explorer II
• Boundary Scan Testing in Compliance with IEEE Standard 1149.1 (JTAG)
• Secure Programming Technology Prevents Reverse Engineering and Design Theft

Leading Edge Performance
•240 MHz System Performance
• 3.9ns Clock-to-Out (Pad-to-Pad)
• 350 MHz Internal Performance

Specifications
• 3,000 to 12,000 Available System Gates
• As Many as 512 Maximum Flip-Flops (Using CC Macros)
• 0.22µCMOS Process Technology
• Up to 132 User-Programmable I/O Pins

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TMP86CS64AFG [8 Bit Microcontroller ]

other parts : TMP86FS64FG  TMP86C964XB 

Toshiba
Toshiba

The TMP86FS64FG is a single-chip 8-bit high-speed and high-functionality microcomputer incorporating 61440 bytes of Flash Memory. It is pin-compatible with the TMP86CS64AFG (Mask ROM version). The TMP86FS64FG can realize operations equivalent to those of the TMP86CS64AFG by programming the on-chip Flash Memory.

Features
1. 8-bit single chip microcomputer TLCS-870/C series
   - Instruction execution time :
      0.25 µs (at 16 MHz)
      122 µs (at 32.768 kHz)
   - 132 types & 731 basic instructions
2. 21interrupt sources (External : 6 Internal : 15)
3. Input / Output ports (91 pins)
   Large current output: 16pins (Typ. 20mA), LED direct drive
4. Watchdog Timer
5. Prescaler
   - Time base timer
   - Divider output function
6. 16-bit timer counter: 1 ch
   - Timer, External trigger, Window, Pulse width measurement, Event counter, Programmable pulse generate (PPG) modes
7. 16-bit timer counter: 1 ch
   - Timer, Event counter, Window modes
8. 8-bit timer counter : 1 ch
   - Timer, Event counter, Capture modes
9. 8-bit timer counter : 3 ch
   - Timer, Event counter, Pulse width modulation (PWM) output, Programmable divider output (PDO) modes
10. 8-bit UART : 1 ch
11. 8-bit SIO: 2 ch
12. 10-bit successive approximation type AD converter
   - Analog input: 16 ch
13. Key-on wakeup : 4 ch
14. Clock operation
   Single clock mode
   Dual clock mode
15. Low power consumption operation
   STOP mode: Oscillation stops. (Battery/Capacitor back-up.)
   SLOW1 mode: Low power consumption operation using low-frequency clock.(High-frequency clock stop.)
   SLOW2 mode: Low power consumption operation using low-frequency clock.(High-frequency clock oscillate.)
   IDLE0 mode: CPU stops, and only the Time-Based-Timer(TBT) on peripherals operate using high frequency clock. Release by falling edge of the source clock which is set by TBTCR<TBTCK>.
   IDLE1 mode: CPU stops and peripherals operate using high frequency clock. Release by interruputs(CPU restarts).
   IDLE2 mode: CPU stops and peripherals operate using high and low frequency clock. Release by interruputs. (CPU restarts).
   SLEEP0 mode: CPU stops, and only the Time-Based-Timer(TBT) on peripherals operate using low frequency clock.Release by falling edge of the source clock which is set by TBTCR<TBTCK>.
   SLEEP1 mode: CPU stops, and peripherals operate using low frequency clock. Release by interruput.(CPU restarts).
   SLEEP2 mode: CPU stops and peripherals operate using high and low frequency clock. Release by interruput.
16. Wide operation voltage:
   4.5 V to 5.5 V at 16MHz /32.768 kHz
   2.7 V to 5.5 V at 8 MHz /32.768 kHz

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