DESCRIPTION
The 6-PAK™ is a modular system of control and boost SIPs. Each 6A control SIP can also drive up to 8 additional 6A boost SIPs in parallel, for a total of 54A. Each SIP accepts a regulated 5V input (+10%) and provides 2.5V to 3.6Vdc output. The circuit is optimized for high efficiency and fast load transient response needed by telecom, DSP and microprocessor applications.
Advanced thermal design, monolithic power circuitry and synchronous rectification result in outstanding performance and value. With integrated input filter and output capacitors, the 6-PAK system makes a complete power supply which requires no external components over the specified operating range. Pins are staked for wave solderability.

FEATURES
*Small SIP Design
*Parallelable Boost SIP
-One stocking part meets a variety of loads
*Programmable Control SIP
-Control/Boost Pair extremely configurable
*Fast Transient Response
-No need for large external capacitors
-Extremely small footprint
*Low Component Count
-Low cost, high reliability
*Staked Pins
-Wave solderable
*Integrated Input Filter
-Low input ripple

6P25-CA, 6P25-P

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DESCRIPTION
The 6-PAK™ is a modular system of control and boost SIPs. Each 6A control SIP can also drive up to 8 additional 6A boost SIPs in parallel, for a total of 54A. Each SIP accepts a regulated 5V input (+10%) and provides 2.5V to 3.6Vdc output. The circuit is optimized for high efficiency and fast load transient response needed by telecom, DSP and microprocessor applications.
Advanced thermal design, monolithic power circuitry and synchronous rectification result in outstanding performance and value. With integrated input filter and output capacitors, the 6-PAK system makes a complete power supply which requires no external components over the specified operating range. Pins are staked for wave solderability.

FEATURES
*Small SIP Design
*Parallelable Boost SIP
-One stocking part meets a variety of loads
*Programmable Control SIP
-Control/Boost Pair extremely configurable
*Fast Transient Response
-No need for large external capacitors
-Extremely small footprint
*Low Component Count
-Low cost, high reliability
*Staked Pins
-Wave solderable
*Integrated Input Filter
-Low input ripple

APPLICATION NOTE
*DCAN-34 - 6-PAK Demo Board

6P25-CA, 6P25-P

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Description
The S-7760A is a programmable port controller IC comprised of an E2PROM, a control circuit for data output, a circuit to prevent malfunction caused by low power supply voltage and others.
This IC operates at 400 kHz and interfaces with exteriors via I2C-bus, controls an 8ch digital output with a serial signal.
Among the digital output ports of 8 channels, the lower 4 channels have a timer function so that at each port, users are able to set the default value and inverted delay time. In the higher 4 channels, setting the fixed output is available at each port. The default value is maintained despite power-off because this IC has an E2PROM. The S-7760A is able to be used to control ON/OFF for the chips surrounding MPU and to output the default data that devices undamentally have.

Features
*Operating voltage range: 2.3 to 4.5 V
*8ch digital output: Higher 4 channels; fixed output/lower 4 channels; timer action
*Operating frequency of I2C-bus interface: 400 kHz
*Low current consumption at standby: 3.0 μA Max. (VCCH = 4.5 V CMOS input type), 10.0 μA Max. (VCCH = 4.5 V low voltage input type)
*Built-in E2PROM circuit: 6-byte
*E2PROM endurance: 105 cycles / word (at −40 to +85 °C)
*E2PROM data retention: 10 years (after rewriting 105 cycles / word)
*Function to protect write in E2PROM
*Function to prevent malfunction during low power supply voltage operation
*Lead-free product
*Small package: WLP-16A, 16-Pin TSSOP (Under development)

Application
*Mobile phone
*Portable communication device
*Digital still camera
*Digital video camera

S-7760A00XX-HCT1, S-7760A10XX-HCT1, S-7760A20XX-HCT1

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DESCRIPTION
The IDT5V9888 is a programmable clock generator intended for high performance data-communications, telecommunications, consumer, and networking applications. There are three internal PLLs, each individually programmable, allowing for three unique non-integer-related frequencies. The frequencies are generated from a single reference clock. The reference clock can come from one of the two redundant clock inputs. A glitchless automatic or manual switchover function allows any one of the redundant clocks to be selected during normal operation.
The IDT5V9888 can be programmed through the use of the I2C or JTAG interfaces. The programming interface enables the device to be programmed when it is in normal operation or what is commonly known as insystem programmable. An internal EEPROM allows the user to save and restore the configuration of the device without having to reprogram it on power-up. JTAG boundary scan is also implemented.
Each of the three PLLs has an 8-bit pre-scaler and a 12-bit feedback divider. This allows the user to generate three unique non-integer-related frequencies. The PLL loop bandwidth is programmable to allow the user to tailor the PLL response to the application. For instance, the user can tune the PLL parameters to minimize jitter generation or to maximize jitter attenuation. Spread spectrum generation and fractional divides are allowed on two of the PLLs.
There are 10-bit post dividers on five of the six output banks. Two of the six output banks are configurable to be LVTTL, LVPECL, or LVDS. The other four output banks are LVTTL. The outputs are connected to the PLLs via the switch matrix. The switch matrix allows the user to route the PLL outputs to any output bank. This feature can be used to simplify and optimize the board layout. In addition, each output's slew rate and enable/disable function can be programmed.

FEATURES
*Three internal PLLs
*Internal non-volatile EEPROM
*JTAG and FAST mode I2C serial interfaces
*Input Frequency Ranges: 1MHz to 400MHz
*Output Frequency Ranges:
-LVTTL: up to 200MHz
-LVPECL/ LVDS: up to 500MHz
*Reference Crystal Input with programmable oscillator gain and programmable linear load capacitance
-Crystal Frequency Range: 8MHz to 50MHz
*Each PLL has an 8-bit pre-scaler and a 12-bit feedback-divider
*10-bit post-divider blocks
*Fractional Dividers
*Two of the PLLs support Spread Spectrum Generation capability
*I/O Standards:
-Outputs - 3.3V LVTTL/ LVCMOS, LVPECL, and LVDS
-Inputs - 3.3V LVTTL/ LVCMOS
*Programmable Slew Rate Control
*Programmable Loop Bandwidth Settings
*Programmable output inversion to reduce bimodal jitter
*Redundant clock inputs with glitchless auto and manual switchover options
*JTAG Boundary Scan
*Individual output enable/disable
*Power-down mode
*3.3V VDD
*Available in TQFP and VFQFPN packages

IDT5V9888NLGI, IDT5V9888PFGI

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FUNCTIONAL DESCRIPTION
The 3D7418 Programmable 8-Bit Silicon Delay Line product family consists of 8-bit, user-programmable CMOS silicon integrated circuits. Delay values, programmed either via the serial or parallel interface, can be varied over 255 equal steps ranging from 250ps to 5.0ns inclusively. Units have a typical inherent (zero step) delay of 12ns to 17ns (See Table 1). The input is reproduced at the output without inversion, shifted in time as per user selection.
The 3D7418 is TTL- and CMOS-compatible, capable of driving ten 74LS-type loads, and features both rising- and falling-edge accuracy.
The all-CMOS 3D7418 integrated circuit has been designed as a reliable, economic alternative to hybrid TTL programmable delay lines. It is offered in a standard 16-pin auto-insertable DIP and a space saving surface mount 16-pin SOIC.

FEATURES
*All-silicon, low-power CMOS technology
*TTL/CMOS compatible inputs and outputs
*Vapor phase, IR and wave solderable
*Auto-insertable (DIP pkg.)
*Low ground bounce noise
*Leading- and trailing-edge accuracy
*Increment range: 0.25 through 5.0ns
*Delay tolerance: 1% (See Table 1)
*Temperature stability: ±3% typical (0C-70C)
*Vdd stability: ±1% typical (4.75V-5.25V)
*Minimum input pulse width: 10% of total delay
*Programmable via 3-wire serial or 8-bit parallel interface

3D7418-0.25, 3D7418-0.5, 3D7418-1, 3D7418-2, 3D7418-3, 3D7418-4, 3D7418-5

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General Description
The a8237 MegaCore function implements a programmable DMA controller, which controls memory-to-peripheral and memory-tomemory data transfers and provides block memory initialization capability. Four independently programmable channels are available in the a8237, and DMA requests can be made via hardware or software. Figure 1 shows the symbol for the a8237

Features
*a8237 MegaCore function implementing a programmable direct memory access (DMA) controller
*Optimized for FLEX® architecture
*Provides four independent channels
*Offers static read/write or handshaking modes
*Includes direct bit set/reset capability
*Uses approximately 1,201 FLEX logic elements (LEs)
*Functionally based on the Intel 8237A and Harris 82C37A devices, except as noted in “Variations & Clarifications” on page 24

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Description
The MLX90215 is a Programmable Linear Hall Effect sensor IC fabricated utilizing silicon-CMOS technology. It possesses active error correction circuitry which virtually eliminates the offset errors normally associated with analog Hall Effect devices. All magnetic response functions of the MLX90215 are fully programmable for even greater versatility. The VOQ (VOUT@ B=0), sensitivity, direction of slope and the magnitude of sensitivity drift over temperature, are all programmable.
The ratiometric output voltage is proportional to the supply voltage. When using the supply voltage as a reference for an A/D converter, fluctuations of ±10% in supply voltage will not affect accuracy. When programmed for a conventional sensitivity (with a positive gain), the voltage at the output will increase as a South magnetic field is applied to the branded face of the MLX90215. Conversely, the voltage output will decrease in the presence of a North  agnetic field. The MLX90215 has a sensitivity drift of less than +1% error, and VOQ stability drift of less than +0.4% error, over a broad temperature range.

Features and Benefits
*Programmable Linear Hall IC
*Quad Switched / Chopper Stabilized
*Ratiometric Output for A/D Interface
*Adjustable Quiescent Voltage (VOQ )
*Very Low Quiescent Voltage Temperature Drift
*Adjustable Sensitivity
*Adjustable Temperature Compensation of Sensitivity

Applications
*Linear Position Sensing
*Rotary Position Sensing
*Current Sensing

MLX90215LVA, MLX90215EVA

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DESCRIPTION
CAT5120/5121/5122 linear-taper digitally programmable potentiometers perform the same function as a mechanical potentiometer or a variable resistor. These devices consist of a fixed resistor and a wiper contact with 16-tap points that are digitally controlled through a 2-wire up/down serial interface.
The CAT5120 is configured as a potentiometer. The CAT5121 and CAT5122 are configured as variable resistors. See Pin Configurations for part functionality. Three resistance values are available: 10kΩ, 50kΩ and 100kΩ. These are available in space-saving 5-pin and 6-pin SC-70 and SOT-23 packages.

FEATURES
*0.3μA Ultra-low standby current
*Single-supply operation: 2.7V to 5.5V
*Glitchless switching between resistor taps
*Power-on reset to midscale
*2-wire up/down serial interface
*Resistance values: 10kΩ, 50kΩ and 100kΩ
*Available in SC-70 and SOT-23 packages

APPLICATIONS
*LCD screen adjustment
*Volume control
*Mechanical potentiometer replacement
*Gain adjustment
*Line impedance matching

CAT5120SDI-10-GT3, CAT5120TBI-10-T3, CAT5120TBI-10-GT3, CAT5120SDI-50-GT3

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General Description
The MLX90251 is a CMOS Programmable, Ratiometric Linear Hall Effect sensor IC. The linear output voltage is proportional to the magnetic flux density. The ratiometric output voltage is proportional to the supply voltage. The MLX90251 possesses active error correction circuitry, which virtually eliminates the offset errors normally associated with analog Hall Effect devices. All the parameters of the MLX90251 transfer characteristic are fully programmable. The VOQ (VOUT @ B = 0 Gauss), the Sensitivity, the slope polarity, the Output Clamping levels, the thermal Sensitivity drift, the internal bias point and low-pass filter are all programmable in end-user applications. The MLX90251 has a very stable thermal compensation for both the Sensitivity and the VOQ over a broad temperature range. For traceability purpose the MLX90251 will carry a unique ID number programmed by Melexis and 24 bits of EEPROM memory are allocated for a user programmed serial number.

Features and Benefits
*Analog Signal Processing
*Quad Switched Hall Plate
*Chopper Stabilized Amplifier
*Linear Analog Ratiometric Output Voltage
*Programmable Output Quiescent Voltage (VOQ) -100%VDD…200%VDD Range
*Programmable Magnetic Sensitivity
*Programmable Low Pass Filter
*Programmable Clamping Voltage
*Programmable Temperature Compensation
*Melexis ID Number
*Programmable Customer ID Number
*Lead-free package

Application Examples
*Linear Position Sensing
*Rotary Position Sensing
*Current Sensing
*Magnetic Field Measurement

MLX90251LVA-2, MLX90251EGO-2

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Description
The ispLSI 1048E is a High Density Programmable Logic Device containing 288 Registers, 96 Universal I/O pins, 12 Dedicated Input pins, four Dedicated Clock Input pins, two dedicated Global OE input pins, and a Global Routing Pool (GRP). The GRP provides complete interconnectivity between all of these elements. The ispLSI 1048E offers 5V non-volatile in-system programmability of the logic, as well as the interconnect to provide truly reconfigurable systems. A functional superset of the ispLSI 1048 architecture, the ispLSI 1048E device adds two new global output enable pins and two additional dedicated inputs.
The basic unit of logic on the ispLSI 1048E device is the Generic Logic Block (GLB). The GLBs are labeled A0, A1…F7 (see Figure 1). There are a total of 48 GLBs in the ispLSI 1048E device. Each GLB has 18 inputs, a programmable AND/OR/Exclusive OR array, and four outputs which can be configured to be either combinatorial or registered. Inputs to the GLB come from the GRP and dedicated inputs. All of the GLB outputs are brought back into the GRP so that they can be connected to the inputs of any other GLB on the device.

Features
*HIGH DENSITY PROGRAMMABLE LOGIC
-8,000 PLD Gates
-96 I/O Pins, Twelve Dedicated Inputs
-288 Registers
-High-Speed Global Interconnects
-Wide Input Gating for Fast Counters, State Machines, Address Decoders, etc.
-Small Logic Block Size for Random Logic
-Functionally and Pin-out Compatible to ispLSI 1048C
*HIGH PERFORMANCE E2CMOS® TECHNOLOGY
-fmax = 125 MHz Maximum Operating Frequency
-tpd = 7.5 ns Propagation Delay
-TTL Compatible Inputs and Outputs
-Electrically Eraseable and Reprogrammable
-Non-Volatile
-100% Tested at Time of Manufacture
*IN-SYSTEM PROGRAMMABLE
-In-System Programmable (ISP™) 5V Only
-Increased Manufacturing Yields, Reduced Time-to-Market and Improved Product Quality
-Reprogram Soldered Devices for Faster Prototyping
*OFFERS THE EASE OF USE AND FAST SYSTEM SPEED OF PLDs WITH THE DENSITY AND FLEXIBILITY OF FIELD PROGRAMMABLE GATE ARRAYS
-Complete Programmable Device Can Combine Glue Logic and Structured Designs
-Enhanced Pin Locking Capability
-Four Dedicated Clock Input Pins
-Synchronous and Asynchronous Clocks
-Programmable Output Slew Rate Control to Minimize Switching Noise
-Flexible Pin Placement
-Optimized Global Routing Pool Provides Global Interconnectivity
-Lead-Free Package Options

ispLSI1048E125LQI, ispLSI1048E100LQI, ispLSI1048E90LQI, ispLSI1048E70LQI

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