Прочие интегральные микросхемы - Решения

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The Altera® Arria® V SoC Development Kit offers a quick and simple approach to develop custom ARM® processor-based SoC designs. Altera’s midrange, transceiver-based Arria V FPGA fabric provides the highest bandwidth with the lowest total power for midrange applications such as:

  • Remote radio units*
  • 10G/40G line cards*
  • Medical imaging
  • Broadcast studio equipment.
  • Acceleration of image- and video-processing applications*
  • PCI Express® (PCIe®) Gen2 x4 lanes (endpoint or rootport)

*Application-specific daughter cards, available separately, supporting a wide range of I/O and interface standards.

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The LTC4416 control two sets of external P-channel MOSFETs to create two near ideal diode functions for power switchover circuits. This permits highly efficient OR’ing of multiple power sources for extended battery life and low self heating.

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BGS12SN6is specifically designed for WLAN and Bluetooth applications. Any of the 2 ports can be used as termination of the diversity antenna handling up to 30 dBm. This single supply chip integrates on-chip CMOS logic driven by a simple, single-pin CMOS or TTL compatible control input signal. The 0.1 dB compression point exceeds the switchs maximum input power level, resulting in linear performance at all signal levels. The RF switch has a very low insertion loss of 0.25 dB in the 1 GHz, 0.29 dB in the 2.5 GHz range and 0.65dB at 6 GHz.

Product: BGS12SN6

Возможности:

  • 2 high-linearity TRx paths with power handling capability of up to 30 dBm
  • High switching speed, ideal for WLAN and Bluetooth applications
  • All ports fully bi-directional
  • Very Low insertion loss at higher frequencies
  • Low harmonic generation
  • High port-to-port-isolation
  • 0.1 to 6 GHz coverage
  • High ESD robustness
  • On-chip control logic
  • Very small leadless and halogen free package TSNP-6-2 (0.7x1.1
    mm2) with super low height of 0.375 mm

Описание:
Current monitoring is a critical function in a variety of applications such as power management, solenoid control, and motor control. Accurate current sensing and diagnostic protection from shorts to GND are achieved by monitoring current on the high side of the load.

An integrated device such as the AD8210 simplifies high side current monitoring by providing a high voltage interface and bidirectional current monitoring capability across the shunt resistor. The AD8210 offers high common-mode rejection (CMR) and excellent temperature performance, for optimal accuracy in the application. The AD8210 amplifies the current flowing through a shunt resistor to a load and provides a ground referenced output voltage that is proportional to the load current.

In applications where dual supplies are used, the output of the AD8210 can drive a precision, low distortion difference amplifier like the AD8274, as shown in Figure 1. The AD8274 provides additional gain and level shifts the AD8210 output to around a desired output common-mode voltage. This facilitates interfacing to other circuit components that use dual supplies. The precision AD780 provides a 2.5 V reference voltage that enables bidirectional current monitoring by the AD8210 and also provides a reference voltage for the AD8274 level shifting function.

Figure 1. Current Sensing and Level Shifting Around GND Using the AD8210, AD8274, and AD780 (Simplified Schematic: Decoupling and All Connections Not Shown)

Возможности:

  • -2 to 65 V common mode voltage
  • High common mode rejection across temperature
  • High side sensing rejects ground noise
  • Bidirectional current monitor system

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The circuit shown in Figure 1 is a high performance phase locked loop (PLL) that uses high speed clock buffers and low noise LDOs to maintain low phase noise even at low reference and RF frequencies. Figure 1. Block Diagram of the EVAL-CN0290-SDPZ. Simplified Schematic: All Connections and Decoupling not Shown For example, the minimum reference frequency and the RF input frequency of a number of Analog Devices PLLs, such as the ADF4106, are specified for 20 MHz and 500 MHz, respectively. The frequency range can be lowered to a 10 MHz reference frequency and a 100 MHz RF input using the additional clock buffers as in Figure 1.
Возможности:

  • Phase locked loop with extended low frequency range
  • LO down to 10MHz, RF down to 100MHz
  • Low distortion and phase noise

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Demonstration circuit DC1154 is a Telecom non isolated DC/DC converter featuring the LTC3873 constant frequency current mode flyback controller. The DC1154 converts 36V to 72V input voltage to an isolated 3A of output current at 3.3V. The 200kHz constant frequency operation is maintained down to very light load to reduce low frequency noise generated over a wide range of load current. The DC1154 also provides an isolated design by installing the optocoupler and LTC4430 related circuitry. The demonstration circuit can be easily modified to generate different output voltages up to 15V. As output voltage is increased, the maximum output current must be reduced to limit the output power to no more than 10W.

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DC2093A-A Demo Board for:
LT4275 LTPoE++/PoE+/PoE PD Controller
LT4321 PoE Ideal Diode Bridge Controller

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DC2093A-A Demo Board for:
LT4275 LTPoE++/PoE+/PoE PD Controller
LT4321 PoE Ideal Diode Bridge Controller

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Demonstration circuit 2093A features the LT®4275, a fourth generation powered device (PD) controller and the LT4321, an ideal diode bridge controller for Power over Ethernet (PoE) applications.

The DC2093A is available in DC2093A-A, DC2093A-B, and DC2093A-C versions to meet the power level required by the PD application. The DC2093A-A features the LT4275A PD controller. This controller supports the IEEE 802.3at (Type 2, PoE+), IEEE 802.3af (Type 1, PoE) and LTPoE++™ specifications. LTPoE++ adds four power levels to the existing IEEE standard with 38.7W, 52.7W, 70W, and 90W of delivered PD power at the RJ45 jack. The DC2093A-B features the LT4275B PD controller and is compliant with the IEEE 802.3at and IEEE 802.3af specifications.

The DC2093A-C features the LT4275C PD controller and is compliant with the IEEE 802.3af specification.

All three assemblies of the DC2093A include a PoE ideal diode bridge controller, LT4321, and eight N-channel FETs to reduce heat, maximize power efficiency, and increase delivered power compared to a conventional diode bridge rectifier. This controller is designed to be used in PoE applications without corrupting the PD’s signature resistance during detection and prevent reverse current during a short at the Ethernet cable.

Many of the main features from the previous generation PD controller are included in the LT4275 PD controller. These include a power good indicator, a power sourcing equipment (PSE) type indicator, and support for an auxiliary power input. The major difference from the previous generation PD controller is that the LT4275 drives an external N-channel Hot Swap™ FET at the PoE high side voltage rail. This allows the user to choose a low RDS(ON) N-channel MOSFET to maximize power efficiency, reduce heat dissipation, and ease thermal design. An LED status indicator is included to indicate that the Hot Swap FET is fully turned on and the PSE is powering the PD. A sufficient load to sink more than 10mA is also included to assure the PSE maintains power to the PD and to meet the DC maintain power signature current required by the IEEE 802.3at/IEEE 802.3af specification.

Simply connect the output of the DC2093A to the DC/DC converter that is right for the application. Linear Technology offers a variety of DC/DC converter solutions that can be used with the DC2093A (eg DC894, DC1317, etc).

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Demonstration circuit 2093A features the LT®4275, a fourth generation powered device (PD) controller and the LT4321, an ideal diode bridge controller for Power over Ethernet (PoE) applications.

The DC2093A is available in DC2093A-A, DC2093A-B, and DC2093A-C versions to meet the power level required by the PD application. The DC2093A-A features the LT4275A PD controller. This controller supports the IEEE 802.3at (Type 2, PoE+), IEEE 802.3af (Type 1, PoE) and LTPoE++™ specifications. LTPoE++ adds four power levels to the existing IEEE standard with 38.7W, 52.7W, 70W, and 90W of delivered PD power at the RJ45 jack. The DC2093A-B features the LT4275B PD controller and is compliant with the IEEE 802.3at and IEEE 802.3af specifications.

The DC2093A-C features the LT4275C PD controller and is compliant with the IEEE 802.3af specification.

All three assemblies of the DC2093A include a PoE ideal diode bridge controller, LT4321, and eight N-channel FETs to reduce heat, maximize power efficiency, and increase delivered power compared to a conventional diode bridge rectifier. This controller is designed to be used in PoE applications without corrupting the PD’s signature resistance during detection and prevent reverse current during a short at the Ethernet cable.

Many of the main features from the previous generation PD controller are included in the LT4275 PD controller. These include a power good indicator, a power sourcing equipment (PSE) type indicator, and support for an auxiliary power input. The major difference from the previous generation PD controller is that the LT4275 drives an external N-channel Hot Swap™ FET at the PoE high side voltage rail. This allows the user to choose a low RDS(ON) N-channel MOSFET to maximize power efficiency, reduce heat dissipation, and ease thermal design. An LED status indicator is included to indicate that the Hot Swap FET is fully turned on and the PSE is powering the PD. A sufficient load to sink more than 10mA is also included to assure the PSE maintains power to the PD and to meet the DC maintain power signature current required by the IEEE 802.3at/IEEE 802.3af specification.

Simply connect the output of the DC2093A to the DC/DC converter that is right for the application. Linear Technology offers a variety of DC/DC converter solutions that can be used with the DC2093A (eg DC894, DC1317, etc).

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Demonstration circuits 721A-A and 721A-B are high current step-down converters for Intel VRM/VRD10 and VRM9 processor power applications. The 6-phase DC721A-A features two current-mode PolyPhaseTM controllers, the LTC3738CUHF (3-Phase Buck Controller for Intel VRM9/VRM10 with Active Voltage Positioning and the the LTC3731CUH (3-Phase, 600kHz, Synchronous Buck Switching Regulator Controller). and provides up to 120A output current. The DC721A-B is a single LTC3738 3-phase 65A output supply. The input voltage range for both demo boards is from 8V to 14V, and the output voltage is controlled by the VID setting.



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The ACT8945AEV contains a fully assembled and tested circuit board designed to demonstrate all the features of the ACT8945A. The ACT8945AEV includes a variety of test points and jumpers as necessary to configure and evaluate the ACT8945A’s functionality.

To evaluate the advanced features of REG1 to REG7, click the Advanced Mode button and select the REG tabs to allow direct access to the control bits. Refer to the ACT8945A data sheet for more information regarding the REG1 to REG7 control registers.
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The AD637-EVALZ is available on-line and is fully tested and ready for bench testing after connecting power and signal I/O. The circuit is configured for dual power supplies, and standard BNC connectors serve as the signal input and output ports. See the AD637 data sheet for schematics and further details.

Описание:

The ADG2128 evaluation board interfaces to the USB port of a PC. Software is available with the evaluation board that allows the user to easily program ADG2128. The EVAL-ADG2128EBZ can be operated with both single and dual supplies.

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This page contains documentation, software, schematics and systems for evaluating the ADV212 JPEC 2000 Video Codec along with ordering information.
Описание:
This page contains ordering information for evaluating the HMC470A.
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Описание:

This page contains ordering information for evaluating theHMC470LP3.

Описание:
This page contains ordering information for evaluating the HMC542BLP4.
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Описание:

This page contains ordering information for evaluating the HMC655LP2E.

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  • Топология платы
Описание:
This page contains ordering information for evaluating the HMC751.
Документация:
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The Infineon microphone digital shuttle board is a evaluation shuttle board with two InfineonXENSIVTMMEMS IM69D130 microphones and an identification EEPROM. These boards can be connected to the sensor hub mega (EVAL SHV02) via the microphone audio board (IMABV01), this configuration allows for quick first-stage evaluation of microphone performance using the SES2G software.

Возможности:

• Shuttle board with two IM69D130 mounted on it
• Dimensions: 17 x 15 mm

Описание:

The ICL8105 universal evaluation board is designed to offer designers maximum flexibility in terms of design during the initial design phase. It provides a flexible base for evaluating the performance of the ICL8105 digital flyback controller and the CoolMOS™ power switch. The objective of this board is to allow the designer to finalizethe circuitry and component values in a fast mannerbefore designing an own form factor PCB.

.dp Interface Gen2 Board can be ordered here

.dp Vision Software is available here

Возможности:

  • Universal AC input from 90 V~ to 305 V~

  • DC input option

  • Wide output voltage range: 20 V to 100 V

  • Output current: 0.1 A to 2.0 A

  • Tunable output voltage range: Wide/narrow/fixed

  • High efficiency with optional synchronous rectification

  • Selectable input and output capacitors

  • 0 – 10 V dimming with isolation support

  • Power rating option with 20W and 80W transformer included

  • Four daughter cards with ICL8105 included
  • Various footprint options for MOSFET/diode

  • Open load auto discharge

  • ICL8105 incl optimized parameter setting for 20W application, device parameters optionally configurable by graphical user interface (.dp vision)

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The IS31AP2005 evaluation board is a fully assembled and tested PCB that uses the IS31AP2005 Class-D power amplifier to drive an 8? or 4? speaker in portable audio applications. Designed to operate from a 2.7V to 5.5V DC power supply, the evaluation board accepts a single-ended or differential input signal. The evaluation board will drive a BTL output capable of delivering 2.6W of 5V continuous power into a 4? speaker.

The IS31AP2005 is a high efficiency, 2.95W mono Class-D audio power amplifier. A low noise, filter-less PWM architecture eliminates the output filter, reducing external component count, system cost, and simplifying design.

Operating in a single 5V supply, IS31AP2005 is capable of driving 4? speaker load at a continuous average output of 2.95W with 10% THD+N. The IS31AP2005 has high efficiency with speaker load compared to a typical Class-AB amplifier.

In cellular handsets, the earpiece, speaker phone, and melody ringer can each be driven by the IS31AP2005. The gain of IS31AP2005 is externally configurable which allows independent gain control from multiple sources by summing signals from each function.
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The MAX14508E evaluation kit (EV kit) provides a proven design to evaluate the MAX14508E high-ESD-protected double-pole/double-throw (DPDT) switch. The EV kit is designed to demonstrate the MAX14508E used in USB 2.0 Hi-Speed-compliant switching applications. The EV kit routes a multiplexed signal from one USB port to another USB port or an audio connector.

The MAX14508E EV kit PCB comes with a MAX14508EEVB+ installed. Contact the factory for free samples of the pin-compatible MAX14509EEVB+, MAX14510EEVB+, MAX14511EEVB+, or MAX14509AEEVB+ devices.
Возможности:

  • USB Powered (Cable Included)
  • Complete USB 2.0 Hi-Speed (480Mbps) Switching Circuit
  • Lead-Free and RoHS Compliant
  • Proven PCB Layout
  • Fully Assembled and Tested

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The MAX14691 evaluation kit (EV kit) is a fully assembled and tested circuit board that demonstrates the MAX14691 overvoltage-, undervoltage-, and overcurrent-protection device. The EV kit features an external p-channel MOSFET and LED input and output reading. The EV kit comes with the MAX14691ATP+ installed, but can also be used to evaluate the pin-compatible MAX14692 and MAX14693 devices with IC replacement of U1. Request samples from Maxim when ordering the EV kit.

Возможности:

  • 5.5V to 58V Operating Voltage Range
  • External p-Channel MOSFET Installed
  • Proven PCB Layout
  • Fully Assembled and Tested

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The MAX147 evaluation system (EV system) is a complete, low-cost, 8-channel data-acquisition system consisting of a MAX147 evaluation kit (EV kit) and a Maxim 68HC16 or 80C32 microcontroller (µC) module. IBM® PC-compatible software provides a handy user interface to exercise the MAX147's features. Source code is provided.

Order the EV system for comprehensive evaluation of the MAX147 using a personal computer. Order the EV kit if the 68HC16 or 80C32 µC module was purchased previously with another Maxim EV system, or for custom use in other µC-based systems.

The MAX147 EV kit evaluates both the MAX147 and the MAX146. To evaluate the MAX146, order a free sample of the MAX146BCPP along with the MAX147 EV kit.
Возможности:

  • Proven PC Board Layout
  • Complete Evaluation System
  • Convenient Test Points Provided On-Board
  • Data-Logging Software
  • Source Code Provided
  • Fully Assembled and Tested

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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

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  • BOM
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The Current Sensor 2GO is a budget-priced evaluation board equipped with a current sensor combined with an ARM® Cortex™-M0 CPU. The Current Sensor 2GO has a complete set of on-board devices, including an on-board debugger. Build your own application and gadget with the Current Sensor 2GO.

More information and free downloads at Sensors 2GO.

Возможности:

  • TLI4970-D050T4 (current sensor with digital interface)
  • XMC1100 (ARM® Cortex™-M0 based)
  • On-board J-Link Lite Debugger (Realized with XMC4200 Microcontroller)
  • Power over USB (Micro USB), ESD and reverse current protection
  • GUI for free download in -32-bit or -64-bit

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The XRP7724EVB-DEMO-1 board is a complete, four channel, power system. It provides 3.3V, 2.5V 1.5V and 1V at a maximum of 3A, 3A, 5A and 10A loads respectively. The 1.5V and 1V supplies can be adjusted in 2.5mV increments, the 2.5V supply in 5mV increments, and the 3.3V supply is adjustable in 10mV increments. The order and ramp rates for each supply can be programmed to accommodate any sequencing requirement. All power supply operations can be controlled over an I2C interface. Faults, output voltages and currents can also be monitored. Two GPIO and three PSIO signals are available and can be programmed to provide a variety of functions. Unused GPIO/PSIO pins can be programmed as I/O expansion for a microcontroller.
The board is supported by PowerArchitectTM 5.0 and plugs directly onto the Exar Communications Module (XRP77xxEVB-XCM).
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*Информация о ценах и сроках поставки носит информационный характер. Офертой является только выставленный счет.

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