General Description
The MX884 targets power management applications where high noise immunity and low cost are primary requirements. Its integrated 10-bit ADC provides high resolution, making it ideal for current monitoring systems. The MX884 enables digital power management, in which a microcontroller can readily monitor the current in a system and perform other control functions in power systems and motion control products.
The MX884 converts a small voltage developed across an external “current” sense resistor to a 10-bit digital output. It features a wide common mode input supply voltage range of 3V to 60V and easily interfaces to most microcontrollers. The design is simple yet cost-effective, requiring very few external components, making it especially suitable for high volume applications.

*3-60 V Operating Voltage Range
*Integrated 10-bit ADC
*3 wire serial interface
*Microcontroller Compatible
*Low Power
*Minimum External Components
*TSOT-23 RoHS Compliant Package

*Lighting Management
*Current Shunt Measurement
*Remote Sensing
*Battery Monitoring
*Microprocessor Controlled Power Management


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Product Description
The Honeywell HRF-AT4511 is a 5-bit digital attenuator that is ideal for use in broadband communication system applications that require accuracy, speed and low power consumption. The HRF-AT4511 is manufactured with Honeywell's patented Silicon On Insulator (SOI) CMOS manufacturing technology, which provides the performance of GaAs with the economy and integration capabilities of conventional CMOS.

*Very Low DC Power Consumption
*Attenuation In Steps From 0.5 dB To 15.5 dB
*Single Or Dual Power Supply Voltages
*Serial Data Interface
*50 Ohm Compatible Impedance
*Space Saving LPCCTM Surface Mount Packaging

HRF-AT4511-B, HRF-AT4511-TR, HRF-AT4511-E

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The MPL115A1 is an absolute pressure sensor with digital output for low cost applications. A miniature 5 x 3 x 1.2 mm LGA package ideally suits it for portable electronics and space constrained applications. Low current consumptions of 5 μA during Active mode and 1 μA during Shutdown (Sleep) mode target battery and other low-power applications. A wide operating temperature range from -40°C to +105°C fits demanding environmental requirements.
MPL115A1 employs a MEMS pressure sensor with a conditioning IC to provide accurate pressure measurement from 50 to 115 kPa. An integrated ADC provides digitized temperature and pressure sensor outputs via a SPI port. Calibration Data is stored in internal ROM. Utilizing raw sensor output, the host microcontroller executes a compensation algorithm to render Compensated Absolute Pressure with 1 kPa accuracy.
The MPL115A1 pressure sensor’s small form factor, low power capability, precision, and digital output optimize it for barometric measurement applications.

*Digitized pressure and temperature information together with programmed calibration coefficients for host micro use.
*Factory Calibrated
*50 kPa to 115 kPa Absolute Pressure
*1 kPa Accuracy
*2.375 V to 5.5 V Supply
*Integrated ADC
*SPI Interface
*Monotonic Pressure and Temperature Data Outputs
*Surface Mount RoHS Compliant Package

Application Examples
*Barometry (portable and desk-top)
*Weather Stations
*Hard Disk-Drives (HDD)
*Industrial Equipment
*Health Monitoring
*Air Control Systems


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The FAN2564 operates from a minimum input of 1.65V and provides outputs as low as 1.2V. Output current is guaranteed to 300mA, making this regulator ideal for digital loads.
The unique low input voltage capability and very low dropout make this device an ideal post regulator to a synchronous buck regulator. In this configuration, accurate low voltage regulation is provided without the inefficiencies typically related to linear regulators.
The enable pin can be used to initiate shutdown mode, where the operating current falls to an extremely low 10nA, typically.
The FAN2564 is designed to be stable with spacesaving ceramic capacitors as small as 0402 case size.
The FAN2564 is available in 4-bump 0.5mm pitch wafer-level chip-scale package (WLCSP) and a 6-lead 2 x 2mm ultra-thin molded leadless package (UMLP).

*Input Voltage 1.65V to 3.6V
*Guaranteed 300mA Output
*High Initial Output Voltage Accuracy: ±1%
*Fixed Output Voltage options from 1.2V to 2.8V
*Very Low Dropout: 100mV at 300mA
*45μA Quiescent Current at No Load
*Low Output Noise of 100μVRMS
*Inrush Current Controlled to Less Than 500mA
*PSRR of 60dB at 1kHz
*100μs Startup Time
*Stable with Ceramic Capacitors
*Thermal and Short-Circuit Protection
*4-bump WLCSP, 0.5mm Pitch
*6-pin 2 x 2mm UMLP

*Post Regulator
*Cell Phones and Smart Phones
*WLAN, 3G, and 4G Data Cards
*PMP and MP3 Players

FAN2564UC12X, FAN2564UC13X, FAN2564UMP12X, FAN2564UMP13X

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The Lattice Semiconductor ispGDS™ family is an ideal solution for reconfiguring system signal routing or replacing DIP switches used for feature selection. With today’s demands for customer ease of use, there is a need for hardware which is easily reconfigured electronically without dismantling the system. The ispGDS devices address this challenge by replacing conventional switches with a software configurable solution. Since each I/O pin can be set to an independent logic level, the ispGDS devices can replace most DIP switch functions with about half the pin count, and without the need for additional pull-up resistors. In addition to DIP switch replacement, the ispGDS devices are useful as signal routing cross-matrix switches. This is the only non-volatile device on the market which can provide this flexibility.
With a maximum tpd of 7.5ns, and a typical active Icc of only 25 mA, these devices provide maximum performance at very low power levels. The ispGDS devices may be programmed in-system, using 5 volt only signals, through a simple 4-wire programming interface. The ispGDS devices are manufactured using Lattice Semiconductor’s advanced non-volatile E2CMOS process which combines CMOS with Electrically Erasable (E2) floating gate technology. High speed erase times (<100ms) allow the devices to be reprogrammed quickly and efficiently.
Each I/O macrocell can be configured as an input, an inverting or non-inverting output, or a fixed TTL high or low output. Any I/O pin can be driven by any other I/O pin in the opposite bank. A single input can drive one or more outputs in the opposite bank, allowing a signal (such as a clock) to be distributed to multiple destinations on the board, under software control. The I/Os accept and drive TTL voltage levels.
Unique test circuitry and reprogrammable cells allow complete AC, DC, and functional testing during manufacture. As a result, Lattice Semiconductor is able to deliver 100% field programmability and functionality of all Lattice Semiconductor products. In addition, 10,000 erase/write cycles and data retention in excess of 20 years are specified.

-7.5 ns Maximum Propagation Delay
-Typical Icc = 25 mA
-UltraMOS® Advanced CMOS Technology
-Any I/O Pin Can be Input, Output, or Fixed TTL High or Low
-Programmable Output Polarity
-Multiple Outputs Can be Driven by One Input
-Programming Time of Less Than One Second
-4-Wire Programming Interface
-Minimum 10,000 Program/Erase Cycles
-Non-Volatile Reprogrammable Cells
-100% Tested/100% Yields
-High Speed Electrical Erasure (<100ms)
-20 Year Data Retention
-Software-Driven Hardware Configuration
-Multiple DIP Switch Replacement
-Software Configuration of Add-In Boards
-Configurable Addressing of I/O Boards
-Multiple Clock Source Selection
-Cross-Matrix Switch


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The GS9032 encodes and serializes SMPTE 125M and 244M bit parallel digital video signals, and other 8-bit or 10-bit parallel formats. This device performs sync detection, parallel to serial conversion, data scrambling (using the X9 + X4 + 1 algorithm), 10x parallel clock multiplication and conversion of NRZ to NRZI serial data. The GS9032 features auto standard and adjustment free operation for data rates to 540Mb/s with a single VCO resistor. Other features include a lock detect output, NRZI encoding, SMPTE scrambler bypass, a sync detect disable, and an isolated quad output cable driver suitable for driving 75Ω loads. The complementary cable driving output swings
can be adjusted independently or the secondary differential cable driver can be powered down.
The GS9032 requires a single +5 volt or -5 volt supply and typically consumes 675mW of power while driving four 75Ω loads.

*SMPTE 259M and 540Mb/s compliant
*serializes 8-bit or 10-bit data
*autostandard, adjustment free operation
*minimal external components (no loop filter components required)
*isolated, quad output, adjustable cable driver
*power saving secondary cable driver disable
*3.3V and 5.0V CMOS/TTL compatible inputs
*lock detect indication
*SMPTE scramble and NRZI coding bypass option
*EDH support with GS9001, GS9021
*Pb-free and RoHS Comliant

SMPTE 259M and 540Mb/s parallel to serial interfaces for video cameras, VTRs, and signal generators; generic parallel to serial conversion.

GS9032-CVM, GS9032-CTM, GS9032-CVME3, GS9032-CTME3

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The ADS1675 is a high-speed, high-precision analog-to-digital converter (ADC). Using an advanced delta-sigma (ΔΣ) architecture, it operates at speeds up to 4MSPS with outstanding ac performance and dc accuracy.
The ADS1675 ADC is comprised of a low-drift modulator with out-of-range detection and a dual-path programmable digital filter. The dual filter path allows the user to select between two post-processing filters: Low-Latency or Wide-Bandwidth. The Low-Latency filter settles quickly (as fast as 2.65ms) for applications with large instantaneous changes, such as a multiplexer. The Wide-Bandwidth path provides an optimized frequency response for ac measurements with a passband ripple of less than 0.00002dB, stop band attenuation of 115dB, and a bandwidth of 1.7MHz.
The device offers two speed modes with distinct interface, resolution, and feature set. In the
high-speed mode the device can be set to operate at either 4MSPS or 2MSPS. In the low-speed mode, it can be set to operate at either 1MSPS, 500KSPS, 250KSPS or 125KSPS.
The ADS1675 is controlled through I/O pins—there are no registers to program. A dedicated START pin allows for direct control of conversions: toggle the START pin to begin a conversion, and then retrieve the output data. The flexible serial interface supports data readback with either standard CMOS and LVDS logic levels, allowing the ADS1675 to directly connect to a wide range of microcontrollers, digital signal processors (DSPs), or field-programmable grid arrays FPGAs).
The ADS1675 operates from an analog supply of 5V and digital supply of 3V, and dissipates 575mW of power. When not in use, the PDWN pin can be used to power down all device circuitry. The device is fully specified over the industrial temperature range and is offered in a TQFP-64 package.

*AC Performance: 103dB of Dynamic Range at 4MSPS, 111dB of Dynamic Range at 125kSPS
-107dB THD
*DC Accuracy: 3ppm INL, 4mV/°C Offset Drift, 4ppm/°C Gain Drift
*Programmable Digital Filter with User-Selectable Path:
–Low-Latency: Completely settles in 2.65ms
–Wide-Bandwidth: 1.7MHz BW with flat passband
*Flexible Read-Only Serial Interface:
–Standard CMOS
–Serialized LVDS
*Easy Conversion Control with START Pin
*Out-of-Range Detection
*Supply: Analog +5V, Digital +3V
*Power: 575mW

*Automated Test Equipment
*Medical Imaging
*Scientific Instrumentation
*Test and Measurement


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The XRT6164 is a CMOS analog chip intended for general purpose line interface applications at bit rates up to 1.544Mbps (T1). It contains both receive and transmit circuitry in a 16-pin dual-in-line plastic package. The receiver is designed for short line applications having a cable loss up to 10dB measured at the half bit rate. The transmitter has open collector line driver outputs that are capable of handling up to 40mA. When used in conjunction with either XRT6165 or XRT6166, the chip set provides a 64Kbps codirectional interface as specified in CCITT G.703.

*Single 5V Supply
*CCITT G.703 Compatible When Used With Either XR-T6165 or XR-T6166
*Low Power
*TTL Compatible Digital Inputs and Outputs
*Links Remote Equipment at Distances up to 500 Meters Without Equalization
*Receive Data Comparator Threshold Storage Provides Ping-Pong Operation Capability
*Loss of Signal Alarm
*Dual Matched Driver Outputs

*Data Adaption Unit (DAU)
*General Purpose TTL Compatible Line Interface

XRT6164CP, XRT6164CD

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The Honeywell HMC5843 is a surface mount multi-chip module designed for low field magnetic sensing with a digital interface for applications such as low cost compassing and magnetometry. The HMC5843 includes our state of the art 1043 series magneto-resistive sensors plus Honeywell developed ASIC containing amplification, strap drivers, offset cancellation, 12-bit ADC and an I2C serial bus interface. The HMC5843 is in a 4.0 by 4.0 by 1.3mm surface mount leadless chip carrier (LCC). Applications for the HMC5843 include Consumer Electronics, Auto Navigation Systems, Personal Navigation Devices, and Magnetometers.
The HMC5843 utilizes Honeywell’s Anisotropic Magnetoresistive (AMR) technology that provides advantages over other magnetic sensor technologies. The sensors feature precision in-axis sensitivity and linearity, solid-state construction with very low cross-axis sensitivity designed to measure both direction and magnitude of Earth’s magnetic fields, from tens of micro-gauss to 6 gauss. Honeywell’s Magnetic Sensors are among the most sensitive and reliable low-field sensors in the industry.
Honeywell continues to maintain product excellence and performance by introducing innovative solid-state magnetic sensor solutions. These are highly reliable, top performance products that are delivered when promised. Honeywell’s magnetic sensor solutions provide real solutions you can count on.

*3-Axis Magnetoresistive Sensors and ASIC in a Single Package
*Low Cost
*4.0 x 4.0 x 1.3mm Low Height Profile LCC Surface Mount Package
*Low Voltage Operations (2.5 to 3.3V)
*Built-In Strap Drive Circuits
*I2C Digital Interface
*Lead Free Package Construction
*Wide Magnetic Field Range (+/-6 Oe)
*Available in Tape & Reel Packaging

HMC5843, HMC5843-TR, HMC5843-demo, HMC5843-eval

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The GS9035A is a high performance clock and data recovery IC designed for serial digital data. The GS9035A receives either single-ended or differential PECL data and outputs differential PECL clock and retimed data signals.
The GS9035A can operate in either auto or manual rate selection mode. In auto mode the GS9035A is ideal for multi-rate serial data protocols such as SMPTE 259M. In this mode the GS9035A automatically detects and locks onto the incoming data signal. For single rate data systems, the GS9035A can be configured to operate in manual mode. In both modes, the GS9035A requires only one external resistor to set the VCO centre frequency and provides adjustment-free operation.
The GS9035A has dedicated pins to indicate LOCK and data rate. In addition, an internal muting function forces the serial data outputs to a static state when input data is not present or when the PLL is not locked. The serial clock outputs can also be disabled resulting in a 10% power savings.
The GS9035A is packaged in a 28 pin PLCC and operates from a single +5 or -5 volt power supply.

*adjustment-free operation
*auto-rate selection for 5 SMPTE data rates: 143, 177, 270, 360, 540Mb/s
*data rate indication output
*serial data output mute when PLL is not locked
*immune to harmonic locking
*operation independent of SAV/EAV sync signals
*low jitter, low power
*single external VCO resistor for operation with five input data rates
*large input jitter tolerance: typically 0.45 UI beyond loop bandwidth
*power savings mode (output serial clock disable)
*system friendly: serial clock remains active when data outputs muted
*robust lock detect
*Pb-free and Green

The GS9035A is used for Clock and Data recovery, and Jitter elimination for all high speed serial digital interface applications involving SMPTE 259M and other data standards.


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