Прочие интегральные микросхемы - Решения

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This board is no longer available for ordering.

The AD-FMCOMMS1-EBZ high-speed analog module is designed to showcase the latest generation high-speed data converters. The AD-FMCOMMS1-EBZ provides the analog front-end for a wide range of compute-intensive FPGA-based radio applications.

The AD-FMCOMMS1-EBZ is an analog front end hardware platform that addresses a broad range of research, academic, industrial and defense applications. The AD-FMCOMMS1-EBZ enables RF applications from 400MHz to 4 GHz. The module is customizable to a wide range of frequencies by software without any hardware changes, providing options for GPS or IEEE 1588 Synchronization, and MIMO configurations.

When combined with the Xilinx ZYNQ® Software-Defined Radio Kit, AD-FMCOMMS1-EBZ enables a variety of wireless communications functions at the physical layer, from baseband to RF. With up to 4 GB of flash storage space, 512 MB of RAM, Gigabit Ethernet interface (depending on the base platform) and a Linux image built specifically for the AD-FMCOMMS1-EBZ, you can get everything you need for a easy out of the box experience. The platform offers enough flexibility for many applications, and supports streaming data, and standard web interfaces to analyze transmitted RF data.

Applications

  • Electronic test and measurement equipment
  • General-purpose software radios
  • Radar systems
  • Ultra wideband satellite receivers
  • Point to point communication systems
Возможности:

  • Includes schematics, layout, BOM, Gerber files, HDL, Linux® drivers, IIO Oscilloscope, VisualANALOG
  • FMC-compatible form factor
  • Powered from FMC connector
  • Provides one channel of ADC and one channel of DAC with full synchronization capabilities

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This circuit provides a simple, elegant interface between the ADL5375 I/Q modulator and the AD9779A high speed DAC. The ADL5375 and the AD9779A are well-matched devices because they have the same bias levels and similarly high signal-to-noise ratios (SNR). The matched bias levels of 500 mV allow for a "glueless" interface–there is no requirement for a level shifting network that would add noise and insertion loss along with extra components. The addition of the swing-limiting resistors (RSLI, RSLQ) allows the DAC swing to be scaled appropriately without loss of resolution or of the 0.5 V bias level. The high SNR of each device preserves a high SNR through the circuit.


Figure 1: Interface Between the AD9779A and ADL5375 with 50 Ω Resistors to Ground to Establish the 500 mV DC Bias for the ADL5375-05 Baseband Inputs (Simplified Schematic)

Возможности:

  • Easy Interface between IQ modulator and TxDAC
  • Dual channel
  • 1 GSPS update rate

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The DS1070K EconOscillator programming kit is a complete hardware/software solution for programming Dallas Semiconductor's 2-wire EconOscillator™ products for evaluation and prototyping new designs. The kit is compatible with the DS1077(L), DS1085(L), DS1086(L), and DS1087(L).
Возможности:

  • Programs and Reads the Registers of the DS1077(L), DS1085(L), DS1086(L), DS1087(L)
  • Built-in Settings Calculator Determines the Settings Required for the Desired Frequency
  • Win95/WinNT 4.0-Compatible Software
  • ZIF Sockets for Both 8-Pin µSOP and 8-Pin SO Devices
  • 2.7V to 5.5V Operation

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The DS2502 Evaluation Kit makes performance evaluation, software development, and prototyping with the DS2502 1Kb Add-Only Memory easy. The evaluation board interfaces to a PC through a DS9123O USB Adapter and RJ-11 cable connection. The provided CD ROM contains all related data sheets along with the evaluation software, which can be run under any Windows operating system.

Separate control tabs allow the user access all DS2502's that are connected to the 1-Wire bus and access all memory locations of those devices.

Kit demonstration boards will vary as they are improved upon over time. For information on the demonstration board circuits refer to the individual board datasheets located inside the documentation directory on the DS2502K CD ROM.
Возможности:

  • Demonstrates the capabilities of the DS2502 1Kb Add-Only Memory including:
    • Identification
    • EPROM Memory
  • Interfaces to the USB port of a PC running Windows OS

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The DS9481R is a USB-to-1-Wire adapter for easy PC connectivity to 1-Wire devices. The adapter provides an RJ11 connector with the signals to communicate with all 1-Wire and iButton devices that support a 3.3V data I/O level. Additionally, the adapter provides the support and signaling to program 1-Wire/iButton EEPROM and one-time programmable (OTP)/EPROM devices. To provide a total hardware solution, the DS9481R can readily be used with the DS9120 socket adapter to create a 1-Wire PC programmer for 1-Wire slave devices (contact factory for more information). The equivalent slave hardware solution for the iButton is the DS1402D-DR8.
Возможности:

  • Driver Support for Windows® 7, Windows Vista®, and Windows XP® Operating Systems
  • Enumerates as a Virtual PC COM Port by Use of the Prolific PL-2303HXD USB-to-UART Bridge IC
  • Emulates the DS2480B 1-Wire Line Driving Functionality
  • 1-Wire OTP/EPROM Programming Provided Without the Need of an External Power Supply (12V on OW, 7V on PULSE)
  • 3.3V Read/Write Operation to 1-Wire/iButton Devices
  • RJ11 Interface for Standard Connectivity Accessories such as the DS9120 Socket Adapter
  • Supports Standard and Overdrive 1-Wire Communication
  • Provides Strong Pullup to 3.3V
  • Fully Compliant with USB 2.0 Specification
  • Windows XP Certified Logo Drivers

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The EVAL-6SOT23EBZ evaluation board evaluates 6-lead SOT-23 devices in the Switches and Multiplexers Portfolio that are purchased separately. A clamp is supplied with the EVAL-6SOT23EBZ to secure a 6-lead SOT-23 device to the evaluation board without the need for soldering, making the board reusable for multiple devices.

A device can be clamped or soldered to the center of the evaluation board. Each pin of the device has a corresponding link from K1 to K6 that can be set to either VDD or GND. A wire screw terminal supplies VDD and GND. SMB connectors on the board allow additional external signals to be supplied to the device. In addition, there is space available at the top of the board for prototyping.

Full specifications of the device under test (DUT) are available in the corresponding product data sheet, which should be consulted in conjunction with user guide UG- 948 when using the evaluation board.
Возможности:

  • 6 lead SOT-23 evaluation board
  • Clamp to allow the main device to be changed easily
  • Gold pin connectors to allow the addition of passive components
  • SMB connectors for the input/output of signals
  • Additional space on board to allow for prototypin

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The AD633-EVALZ has Built-in flexibility that allows convenient configuration to accommodate most operating configurations.


Any dual-polarity power supply capable of providing 10 mA or greater is all that is required, in addition to whatever test equipment the user wishes to perform the intended tests. The AD633-EVALZ can be configured for multiplier or divider operation by switch S1.


Refer to the AD633 data sheet for divider circuit connections, signal, power, and ground-plane artworks and all other information.


Описание:

The AD8114 is a high speed 16 × 16 video crosspoint switch matrices. It offers a −3 dB signal bandwidth greater than 200 MHz and channel switch times of less than 50 ns with 1% settling. The AD8114 includes 16 independent output buffers that can be placed into a high impedance state for paralleling crosspoint outputs to prevent off channels from loading the output bus. The AD8114 has a gain of +1 and operates on voltage supplies of ±5 V while consuming only 70 mA of idle current. Channel switching is performed via a serial digital control that can accommodate the daisy-chaining of several devices or via a parallel control to allow updating of an individual output without reprogramming the entire array.

The AD8114 is available in a 100-lead LQFP over the extended industrial temperature range of −40°C to +85°C. Some applications of these analog crosspoint switches are routing of high speed signals including video (NTSC, PAL, S-video, SECAM, YUV, RGB), compressed video, three-level digital video, data communications, and telecommunications.

The AD8112, AD8113, AD8114/AD8115, and ADV3205 are all pin-compatible with each other and are available in the same 100-lead LQFP, which can be evaluated on a single board.

Возможности:

  • Full featured evaluation board for the AD8114
  • Uses USB Board Z with PIC18F4550 for the digital control
  • ±5 V operation

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This Evaluation Board is no longer available for ordering. Please see the ADE7953 Evaluation Board.


The ADE7116/ADE7166/ADE7169/ADE7566/ADE7569 integrate the Analog Devices, Inc., energy (ADE) metering IC analog front end and fixed function DSP solution with an enhanced 8052 MCU core, a RTC, an LCD driver, and all the peripherals to make an electronic energy meter in a single part.


The ADE measurement core includes active, reactive, and apparent energy calculations, as well as voltage and current rms measurements. This information is accessible for energy billing by using the built-in energy scalars. Many power line supervisory features such as SAG, peak, and zero crossing are included in the energy measurement DSP to simplify energy meter design.


The microprocessor functionality includes a single-cycle 8052 core, a RTC with a power supply backup pin, an SPI or I2C interface, and one to two UART interfaces. The ready-to-use information from the ADE core reduces the requirement for program memory size, making it easy to integrate complicated design into 16kB or 62 kB of flash memory.


The evaluation kit allows the user to evaluate the energy metering performance and RTC through a Labview software program without requiring the user to develop firmware. The evaluation kit is supported by a kickstart version of the IAR integrated development environment, allowing the user to develop and debug code on the evaluation board. An isolated USB to UART converter allows in-circuit debugging with the IAR interface as well as for downloading code to the IC. This isolated USB to UART converter also provides an isolated UART for developing communication drivers to a PC, for example. If the user has an LCD, this can be connected to the evaluation board to evaluate the LCD driver performance.

Возможности:

  • Full evaluation kit including evaluation board hardware, evaluation software, and development tools
  • Supported by IAR development tools for assembly and C code development
  • Isolated USB-to-UART communication
  • LabVIEW evaluation software for evaluation of meter performance
  • LabVIEW download tools for user firmware download
  • Single evaluation board supports ADE7116/ADE7166/ADE7169/ADE7566/ADE7569
  • EVAL-ADE7169EBZ-2 comes with ADE7169 IC installed

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NOTE: With lower power consumption than the ADE7752, the ADE7752A is recommended for all new designs. The parts are pin and functionality compatible.


This documentation describes the ADE7752A (ADE7752) evaluation kit hardware functionality. The ADE7752A (ADE7752) evaluation board, together with the ADE7752A (ADE7752) datasheet provides a complete evaluation platform for the ADE7752A (ADE7752). The evaluation board has been designed so that the ADE7752A (ADE7752) can be evaluated in the end application, i.e., Watt-Hour Meter. Using the appropriate transducers on the current channel (e.g., CT), the evaluation board can be connected to a test bench or high voltage (240V rms) test circuit. On-board resistor dividers networks provide the attenuation for the line voltages. This application note also describes how the current transducers should be connected for the best performance. The evaluation board requires two external 5V power supplies (one is required for isolation purposes) and the appropriate current transducers.

Описание:

This page contains ordering information for evaluating this product.

Описание:
This page contains evaluation board documentation and ordering information for evaluating this product.
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The ADN2830 provides closed loop control of the average optical power of a continuous wave (CW) laser diode (LD) after initial factory setup. The control loop adjusts the laser Ibias to maintain a constant Back Facet Monitor Photo Diode (MPD) current and hence a constant laser optical power. The external PSET resistor is adjusted during factory set up to set the desired optical power. Programmable alarms are provided for laser fail (end of life) and laser degrade (impending fail).
Описание:
This page contains documentation, software, schematics and systems for evaluating the ADV212 JPEC 2000 Video Codec along with ordering information.
Описание:

The Universal Single High Speed Amplifier Evaluation Boards are bare boards that enable users to quickly prototype a variety of amplifier circuits, which minimizes risk and reduces time to market. These boards are all RoHs Compliant. See ordering guide below on what board to order by lead count and package.

Возможности:

  • Enables quick breadboarding/prototyping
  • User defined circuit configuration
  • Edge mounted Subminiature Version A (SMA) connector
  • provisions Easy connection to test equipment and other circuits

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The HV860DB1 demoboard contains all necessary circuitry to demonstrate the features of the HV860 EL lamp driver. For EL lamp dimming, either a potentiometer or an N-channel open drain PWM signal can be used, but not both.

Возможности:

    Please download the user guide for more information

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The MAX1630/MAX1631/MAX1632 evaluation kits (EV kits) each consist of one of three preassembled and tested evaluation boards (EV boards) that embody the standard application circuits. The MAX1630 and MAX1632 EV boards provide the triple-output 3.3V/5V/12V circuit, and the MAX1631 EV board provides the dual-output 3.3V/5V circuit.

All three use the same PC board but have different components to accommodate different input voltage ranges. The main differences between the MAX1630 and MAX1632 EV boards are in the turns ratio (1:4 or 1:2.2) and in the location of the transformer connection (3.3V side or 5V side). Connecting the transformer to the 3.3V side allows lower input voltage. Connecting the transformer to the 5V side provides slightly better efficiency and lower stress voltages.

These circuits are configured to deliver up to 3A of output current on each of the main PWM outputs with greater than 90% efficiency. The MAX1630/MAX1631/MAX1632 EV kits can also be used to evaluate other output voltages.
Возможности:

  • Battery Range:
    • 5.2V to 20V (MAX1630)
    • 5.2V to 28V (MAX1631)
    • 6.5V to 28V (MAX1632)
  • Outputs:
    • 3.3V at 3A
    • 12V at 120mA
    • 5V at 3A
    • 5V at 30mA Keep-Alive
  • 1:4 Transformer (MAX1630)
    1:2.2 Transformer (MAX1632)
  • Adjustable 2.5V to 5.5V Outputs (optional resistor divider)
  • Precision 2.5V Reference Output
  • Oscillator Sync Input
  • Low-Noise Mode Control Input (active-low SKIP)
  • Power-Good Monitor (active-low RESET output)
  • Fully Assembled and Tested

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The MAX1705 evaluation kit (EV kit) is a step-up switching regulator for battery-powered systems operating from 1 to 3 NiCd/NiMH cells or 1 Li-Ion cell. The EV kit accepts a +0.9V to +4.5V input and converts it to a 4.5V step-up output and a 3.3V linear-regulator output. It provides low quiescent current, high-efficiency pulse-frequency-modulation operation for maximum battery life, and a high-power, fixed-frequency pulse-width-modulation mode. The MAX1705 features a built-in, low-dropout linear post-regulator that reduces high-frequency ripple.

The MAX1705 EV kit is a fully assembled and tested surface-mount circuit board. It can also be used to evaluate the MAX1706.
Возможности:

  • +0.9V to +4.5V Input Range
  • High-Power Output: 4.5V or Adjustable
  • Dual Outputs: Step-up and Linear Regulator
  • 200mA Max Linear-Regulator Output Current
  • Optional Track Mode for Highest Efficiency
  • Low-Noise, 3.3V or Adjustable Output Voltage
  • High-Efficiency Step-up Converter: up to 96%
  • Up to 850mA Total Output Current
  • Internal 300kHz Oscillator
  • Internal MOSFET and Synchronous Rectifier
  • 1µA Shutdown Current
  • Power-Good Output
  • Surface-Mount Components
  • Fully Assembled and Tested

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The MAX17062 evaluation kit (EV kit) is a fully assembled and tested surface-mount printed-circuit board (PCB) that provides the voltages required for active-matrix, thin-film transistor (TFT), liquid-crystal displays (LCDs). The EV kit contains a pulse-width-modulated (PWM) step-up switching regulator, a positive single-stage charge pump for the TFT gate-on supply, and a negative single-stage charge pump for the TFT gate-off supply.

The EV kit operates from a DC supply voltage of +4.5V to +5.5V and is configured to operate with a switching frequency of 1.2MHz. The step-up switching regulator is configured for a +15V output and can provide 600mA with a +4.5V input. The positive charge pump is configured for a +29V output providing 30mA. The negative charge pump is configured for a -15V output providing 30mA.

The MAX17062 EV kit features low-quiescent current and high-conversion efficiency (90%). The high switching frequency allows the use of small, surface-mount components.
Возможности:

  • 90% Efficiency
  • +2.6V to +5.5V Input Range
  • Output Voltage Adjustable from VIN to 20V
  • Output Voltages (+4.5V to +5.5V Input)
    • +15V Output at 600mA
    • +29V Output at 30mA (Positive Charge Pump)
    • -15V Output at 30mA (Negative Charge Pump)
  • 1.2MHz Switching Frequency (Selectable: 640kHz or 1.2MHz)
  • Programmable Soft-Start
  • 0.01µA IC Shutdown Current (typ)
  • Fully Assembled and Tested

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The MAX1739 evaluation system (EV system) consists of a MAX1739 evaluation kit (EV kit) and a companion Maxim SMBus™ interface board.

The MAX1739 EV kit is an assembled and tested PC board that demonstrates the MAX1739 wide brightness range cold-cathode fluorescent lamp (CCFL) backlight controller. The EV kit can control the brightness of a user-supplied lamp through either the SMBus interface or by an on-board potentiometer. Figure 1 shows the MAX1739 EV kit main display.

The Maxim SMBus interface board (MAXSMBus) allows an IBM®-compatible PC to use its parallel port to emulate an Intel® system management bus (SMBus) 2-wire interface. Windows® 95/98-compatible software provides a user-friendly interface to exercise the features of the MAX1739. The program is menu driven and offers a graphic interface with control buttons and status display.

Order the MAX1739EVSYS for a complete PC-based evaluation of the MAX1739. Order the MAX1739EVKIT if you already have an SMBus interface.
Возможности:

  • Wide Brightness Adjustment Range
  • Open Lamp Protection with 2s Timeout
  • "Buck" Switch and Other Single-Point Fault Protection
  • Brightness Adjustable Through SMBus Interface or On-Board Potentiometer
  • No Flicker at Low Brightness
  • High Power to Light Efficiency
  • I²C/SMBus Compatible
  • Easy-to-Use Menu-Driven Software
  • Assembled and Tested
  • Includes:
    • Windows 95/98-Compatible Software (3.5in Floppy Disk)
    • Demo PC Board

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The MAX2015 evaluation kit (EV kit) is a fully assembled and tested surface-mount circuit board that allows for easy evaluation of the MAX2015 RF power detector/controller. The MAX2015 EV kit includes connections to operate the device as a detector or as a controller. The RF input utilizes a 50Ω SMA connector for convenient connection to test equipment.
Возможности:

  • Complete RF Power Detector/Controller
  • 50MHz to 2.7GHz Frequency Range
  • 2.7V to 5.25V Single-Supply Operation
  • 50Ω SMA Connector on RF Input
  • Fully Assembled and Tested Surface-Mount Board

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These evaluation kits (EV kits) simplify testing of the MAX250_. The EV kits provide 50Ω SMA connectors to all RF ports and BNC connectors to the baseband I/Q inputs. The kits enable testing of the devices' RF performance and all modes of operation.

Each kit is assembled with the corresponding IC and incorporates all matching components.

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The MAX2660/MAX2661/MAX2663/MAX2671 evaluation kits simplify evaluation of the MAX2660/MAX2661/MAX2663/MAX2671 upconverter mixers. They enable testing of all the functions, with no additional support circuitry. Signal inputs and outputs use SMA connectors and are compatible with the 50Ω impedance of test equipment.

Each EV kit is shipped with a Maxim device configured for operation with an IF input frequency of 40MHz to 500MHz, and LO input frequency of 600MHz to 2400MHz. The output matching network of each kit is optimized for an RF output frequency of 900MHz.
Возможности:

  • +2.7V to +5.5V Single Supply
  • Output Matched to 50 ohms at 900MHz
  • Optimal Component Placement
  • Easy Evaluation of All Product Functions
  • All Critical Peripheral Components Included

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The MAX3675/MAX3676 evaluation kits (EV kits) simplify evaluation of the MAX3675/MAX3676 622Mbps clock-recovery and data-retiming IC with limiting amplifier. The EV kits enable testing of all MAX3675/MAX3676 functions. They provide selectable analog or digital data inputs, as well as differential PECL-compatible data and clock outputs.

The differential data and clock outputs have 50Ω> attenuators on-board to allow direct connection to a high-speed oscilloscope.

The MAX3675/MAX3676 EV kits come configured for +3.3V operation and consume approximately 120mA.
Возможности:

  • SMA Connections for all Data and Clock I/Os
  • Test Points for Monitoring
    • Received-Signal-Strength Indicator (RSSI)
    • Loss-of-Power (LOP)
    • Loss-of-Lock (LOL)
    • LOP Threshold Level (VTH)
  • +3.3V Single-Supply Operation
  • Fully Assembled and Tested

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The MAX3681 evaluation kit (EV kit) simplifies evaluation of the MAX3681 622Mbps, SDH/SONET 1:4 deserializer. The EV kit requires only a single +3.3V supply and includes all the external components necessary to interface with 3.3V PECL and LVDS logic. The board can be connected directly to the output of a clock-and-data-recovery circuit (such as the MAX3675) and to the input of an LVDS device (such as an overhead termination circuit). A signal generator or stimulus system can be used with an oscilloscope, to evaluate the MAX3681's basic functionality.
Возможности:

  • Single +3.3V Supply
  • Inputs and Outputs Terminated for Interfacing with 3.3V PECL and LVDS Logic
  • Fully Assembled and Tested

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The MAX3800 evaluation kits (EV kits) simplify evaluation of the MAX3800 adaptive equalizer and cable driver. The EV kits enable testing of all the device's functions. SMA connectors with 50Ω controlled-impedance transmission lines to the MAX3800 are provided for all input and output ports.
Возможности:

  • SMA Connectors for All High-Speed Inputs and Outputs
  • Fully Assembled and Tested
  • Includes Potentiometer for Adjusting Driver Output Amplitude

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The MAX4001 evaluation kit (EV kit) is a fully assembled and tested surface-mount circuit board that evaluates the MAX4001 RF-detecting controller in a 9-bump chip-scale package (UCSP™). The MAX4001 EV kit includes on-board shutdown control as well as quasi-measurement mode circuitry to provide an easy method to evaluate the MAX4001. The RF input utilizes a 50Ω SMA connector for convenient connection to test equipment. The MAX4001 EV kit can also be used to evaluate the MAX4000 and MAX4002 RF-detecting controllers.
Возможности:

  • 2.7V to 5.5V Single-Supply Operation
  • 50Ω SMA Connector on RF Input
  • Low-Profile Design (0.65mm, max)
  • On-Board Quasi-Measurement Mode Circuitry
  • On-Board Shutdown Control
  • Ultra-Compact Solution
  • Fully Assembled and Tested Surface-Mount Board

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The MAX4003 evaluation kit (EV kit) is a fully assembled and tested surface-mount circuit board that evaluates the MAX4003 RF detector in an 8-pin µMAX® package. The MAX4003 EV kit includes an on-board shutdown control as well as quasi-measurement mode circuitry to provide an easy method to evaluate the MAX4000/MAX4001/MAX4002. The RF input utilizes a 50Ω SMA connector for convenient connection to test equipment. The MAX4003 EV kit can also be used to evaluate the MAX4000/MAX4001/MAX4002 RF-detecting controllers.
Возможности:

  • 2.7V to 5.5V Single-Supply Operation
  • 50Ω SMA Connector on RF Input
  • On-Board Quasi-Measurement Mode Circuitry
  • On-Board Shutdown Control
  • Fully Assembled and Tested Surface-Mount Board

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The MAX6951 evaluation kit (EV kit) is an assembled and tested printed-circuit board (PCB) that demonstrates the MAX6951 serially interfaced 8-digit LED display driver IC. The EV kit is powered by a user-supplied +4VDC to +6.5VDC power supply. A configurable +3.3V or user-configurable low-dropout (LDO) linear regulated power supply provides power for the entire EV kit. An SPI™-compatible serial interface is connected to an IBM PC-compatible computer's parallel port for easy evaluation. The EV kit can easily be reconfigured for interfacing with a user-supplied microcontroller (stand-alone operation).

Windows® 95/98-compatible software provides a user-friendly interface to demonstrate the various features of the MAX6951 IC. The program is menu driven and offers a graphic interface with control buttons. Windows NT/2000 support is available; contact the factory for details.
Возможности:

  • Eight-Digit 7-Segment + dp Common-Cathode Display
  • SPI-Compatible Serial Interface
  • Configurable Built-In LDO Linear Regulated Power Supply Demonstrates +3.3V or Other Voltages
  • Reconfigurable for Stand-Alone Operation (with an External Microcontroller)
  • Easy-to-Use Menu-Driven Software
  • Includes Windows 95/98-Compatible Software
  • Assembled and Tested

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The MAX6952 evaluation kit (EV kit) is an assembled and tested printed circuit board (PCB) that demonstrates the MAX6952 SPI™-interfaced four-digit 5 x 7 matrix LED display driver. Two cascaded MAX6952s are used to drive eight 5 x 7 monocolor matrix displays. The EV kit is powered by a user-supplied 2.7VDC to 5.5VDC power supply. The SPI-compatible serial interface is connected to an IBM-compatible PC parallel port for easy evaluation. The EV kit can be reconfigured for interfacing to a user's microcontroller for standalone operation.

Windows® 95/98/2000-compatible software provides a user-friendly interface to demonstrate the features of the MAX6952 IC. The program is menu driven and offers a graphic interface with control buttons.
Возможности:

  • 8-Character Red 5 x 7 Matrix Cathode-Row Display
  • SPI-Compatible Serial Interface
  • Operates from a 2.7V to 5.5V Supply Range
  • Reconfigurable for Standalone Operation with an External Microcontroller
  • Easy-to-Use Menu-Driven Software
  • Windows 95/98/2000-Compatible Software
  • Fully Assembled and Tested

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Описание:
The MAX6974 evaluation kit (EV kit) is an assembled and tested printed circuit board (PCB) that demonstrates the MAX6974/MAX6975 precision current-sinking, 24-output PWM LED drivers. The MAX6974/MAX6975 functionality can be evaluated using the MAX6974 EV kit. The MAX6975 has 14-bit individual PWM and 5-bit global PWM, while the MAX6974 has 12-bit individual PWM and 7-bit global PWM. The evaluation kit comes with a MAX6974ATL+ installed. The Windows® 98/2000/XP software supports only the MAX6974.
Возможности:

  • Proven PCB Layout
  • Complete Evaluation System
  • Convenient On-Board Test Points
  • Fully Assembled and Tested
  • Multiplexed 4 x 8 RGB (96 LEDs Total) 20mA LED Matrix

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Описание:
The MAX722 and MAX723 CMOS power-supply ICs create dual regulated DC outputs for small, battery-operated microprocessor systems. Each device generates a main output (3V or 5V, selectable) and a negative auxiliary output that is adjustable for LCDs. Each device accepts two input voltages. Power can come from a main battery (two or three alkaline or NiCAD), or an unregulated DC source such as an AC-DC wall adapter.

The MAX722/MAX723 provide three improvements over prior-art devices. Physical size is reduced; the high switching frequencies (up to 0.5MHz), made possible by MOSFET power transistors, allow for tiny (< 5mm diameter) surface-mount magnetics. Efficiency is also improved to 87% (10% better than with low-voltage regulators made in bipolar technology). And supply current is reduced to 60µA by CMOS construction and a unique constant-off-time pulse-frequency modulation (PFM) control scheme.

The MAX722 and MAX723 differ only in the lower fixed output voltage of the main regulator, with a 3.3V output for the MAX722 and a 3.0V output for the MAX723.

For flash memory or PCMCIA applications that require a +12V output voltage, refer to the MAX717–721 data sheet.
Возможности:

  • Low 0.9V to 5.5V Battery Input Range
  • Unregulated 7V to 20V DC Input Range
  • Dual Regulated Outputs
    • Main Output: 3.3V/5V
    • Auxiliary Output: 0V to -100V
  • 87% Efficiency at 200mA
  • Efficient PRAM Keep-Alive: 80% at 1mA
  • 8W/in³ Power Density
  • 60µA Quiescent Current
  • 20µA Shutdown Mode with VREF Alive
  • 500kHz Maximum Switching Frequency
  • ±1.5% VREF Tolerance (Over Temp.)
  • Detect Output Power Failures
  • 16-Pin Narrow SO Packages

Документация:
  • Даташит
Описание:
The MAX7349 evaluation kit (EV kit) is an assembled and tested circuit board that demonstrates the MAX7349 2-wire-interfaced, low-EMI key switch and sounder controller. Windows® 98SE/2000/XP software provides a handy user interface to exercise the features of the MAX7349.
Возможности:

  • Proven PC Board Layout
  • Complete Evaluation System
  • 7 x 8 Key Matrix Included
  • Sounder Included
  • Fully Assembled and Tested

Документация:
  • Даташит
Описание:
The MAX9209/MAX9244 evaluation kit (EV kit) provides a proven design to evaluate the MAX9209 21-bit programmable DC-balanced serializer and the MAX9244 21-bit deserializer with programmable spread spectrum and DC balance. The MAX9209 serializes 21 bits of LVCMOS/LVTTL parallel input data to three LVDS outputs. The MAX9244 deserializes the three LVDS input data from the MAX9209 and transforms it back to 21-bit LVCMOS/LVTTL parallel data.

The MAX9209/MAX9244 EV kit circuits are implemented on a single PCB and come with a MAX9209EUM+ and a MAX9244EUM+ installed.
Возможности:

  • 21-Bit Parallel LVCMOS/LVTTL Interface
  • 8-Conductor Connector with Custom Cable
  • Independent Evaluation of the MAX9209/MAX9244 Serializer/Deserializer (SerDes)
  • Lead-Free and RoHS Compliant
  • Proven PCB Layout
  • Fully Assembled and Tested

Документация:
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Описание:
The MAX9247/MAX9248 evaluation kit (EV kit) provides a proven design to evaluate the MAX9247 27-bit, 2.5MHz to 42MHz DC-balanced LVDS serializer and the MAX9248 27-bit, 2.5MHz to 42MHz DC-balanced LVDS deserializer. The MAX9247 serializes 27 bits of parallel input data, 18 bits of video, and 9 bits of control to a serial data stream. The MAX9248 deserializes the LVDS serial input, which converts to 18 bits of parallel video data and 9 bits of parallel control data.

The EV kit PCB has a MAX9247ECM+ or MAX9247GCM+ and a MAX9248ECM+ or MAX9248GCM+ installed.
Возможности:

  • 27-Bit Parallel Interface
  • Rosenberger Connector (Cable Included)
  • Independent Evaluation of the MAX9247/MAX9248 Serializer/Deserializer (SerDes)
  • Proven PCB Layout
  • Fully Assembled and Tested

Документация:
  • Даташит
Описание:

Temperature is one of the most widely measured parameters in industrial process control and automation. This reference design provides a complete signal-chain solution that works with any type of RTDs, from PT100 to PT1000. The Novato PT100 2-wire, loop-powered smart temperature transmitter guarantees a low-power, easy-to-use, reliable solution of temperature measurement from -200°C to +850°C with accuracy better than 0.1% or 1.0°C, whichever is more accurate, over the entire operating range.

The Novato MAXREFDES16 smart sensor transmitter reference design features:

Документация:
  • Схемотехника
  • BOM
  • Топология платы
Описание:

Go-IO is an Industrial-Internet-of-Things (IIoT) reference design designed for rapid prototyping and development of configurable industrial-control systems. Typical end applications include Industry 4.0 driven process automation for building automation for intelligent buildings, smart sensors, reconfigurable industrial control systems, and robotics. All these industrial applications require a high performance, robust, configurable solution, which Go-IO provides using a modular approach. These systems are enabled by highly integrated ICs from Maxim Integrated, delivering new levels of performance while delivering lower power dissipation in tiny footprints.

Go-IO has four different boards. The different configurations provide a varying mix of type of I/O channels and communication interfaces to target different end applications.

Design files, firmware, and software can be found on the Design Resources tab. The boards are also available for purchase.

Возможности:

  • 8 Channels Isolated Digital Input
  • 4 Channels Isolated 1.2A Digital Output with Safe/Fast Demag
  • 4-Port IO-Link® Master version 1.1 compliant with TMG IO-Link Master Stack
  • 1 Isolated Power and RS-485 COM port, full duplex to 25Mbps data rate

Документация:
  • Схемотехника
  • BOM
  • Топология платы
Описание:

Maxim’s MAXREFDES99# is an Arduino® form-factor shield which drives a 16x16 LED array for signage applications. This design is ideal for anyone developing a display application. The board features Maxim’s MAX7219, a legendary LED driver that simplifies the process of controlling multiple LEDs in matrix or numeric display form. In MAXREFDES99#, four MAX7219 ICs are daisy chained to drive a full 256-LED array, which can display any international alpha numeric symbol. The board arrives complete with four 8x8 LED displays.

Code for the MAXREFDES99# is available on both Arduino and ARM® mbed platforms for quick prototyping with multiple platform boards. System demonstrations include the display of ASCII characters ‘SPACE’ through ‘~’ and writing/scrolling string messages. Developers are encouraged to build upon and enhance the code base.

Возможности:

  • Flexible 16x16 Dot Matrix Display
  • mbed.org library
  • Arduino library
  • Arduino form-factor shield

Документация:
  • Схемотехника
  • BOM
  • Топология платы
*Информация о ценах и сроках поставки носит информационный характер. Офертой является только выставленный счет.

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