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Microchip - 1-Port Gigabit 95W PoE Midspan
XProduct SKU: PD-9601G/AC/B
Microsemi single and multiport midspans are an economical and easy way to power popular devices such as WLAN access points, IP video phones, IP security cameras, security access devices, thin clients and printers over new or existing Ethernet infrastructure. Microsemi's PD-9601G midspan is a single port solution for remote powering of current as well as emerging high power applications. The Microsemi PD-9601G is designed to power wireless and cellular base stations, pan-tilt-zoom (PTZ) and dome cameras, physical access control with door locks, televisions and interactive displays, Point of Sales (POS) and information kiosks, thin clients and other high power Ethernet end terminals with 95W of power, and is also backward compatible and safe to use with any IEEE802.3af or IEEE802.3at terminal such as VoIP phones, IP cameras and wireless LAN access points. It can power both existing 10/100Base-T devices and emerging wireless Gigabit devices. With the midspan's plug-and-play installation, they are easy and cost effective to implement leveraging existing Ethernet infrastructure while at the same time providing the assurance of a future proof network. Features - Up to 95W of power over 4-pairs - PoH, IEEE802.3at and 802.3af compliant - Plug-and-play installation - Guaranteed uptime
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Microchip - 1-port Managed Gigabit PoE Midspan
XProduct SKU: PD-9001GR/AC-P
Microsemi single and multiport midspans are an economical and easy way to power popular devices such as WLAN access points, IP video phones, IP security cameras, security access devices, thin clients and printers over new or existing Ethernet infrastructure. Microsemi's PD-9001GR is a single port, high-power solution for remote powering of current and emerging high power applications. Generating up to 30W, the PD-9001GR enables remote power for a new range of applications including 802.11ac Access Points, pan-tiltzoom (PTZ) cameras and video-phones. It complies with the IEEE 802.3at PoE+ standard and is backward compatible with IEEE802.3af. It can power both existing 10/100Base-T network devices and emerging wireless 1000Base-T devices such as WiMAX and wireless IEEE 802.11ac access points. Features - Single-port Gigabit PoE Midspan, 802.3at Compliant with 2-event classification - Backwards compatible with IEEE802.3af - 30W output power from -20oC to +40oC, 25W output at +55oC - 1000BaseT compatible - Safe & reliable power over existing Ethernet infrastructure, only PoE devices receive power - Automatic detection and protection of non-standard devices - Cisco and legacy PoE support - Plug-and-play installation - Guaranteed up-time
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Microchip - 1200V Silicon Carbide Power MOSFET
XProduct SKU: APT40SM120B-P
Silicone Carbide (SiC) Schottky MOSFETs offer superior dynamic and thermal performance over conventional Silicon power MosFETs. The table below summarizes the advantages of SiC vs Si power discretes.
Characteristics | SiC vs. Si | Results | Benefits |
Breakdown Field | 10x Higher | Lower On-Resistance | Higher efficiency |
Band Gap | 3x Higher | Higher operating temperature | Improved cooling |
Thermal conductivity | 3x Higher | Higher power density | Higher current capabilities |
Positive Temperature coefficient | - | Self regulation | Easy paralleling |
Temperature Independent switching behavior | - | Stable high temperature performance | Lower losses |
Almost no Reverse Recovery charge | - | Lower switching losses Higher switching capabilities | Higher performance |
Features
Microsemi SiC MosFETs Advantages - Best in Class RDS(on) vs Temperature: leads to lower switching losses as well as stability over the complete operating temperature range. - Longest Short Circuit Withstand Rating: highest simple easy control circuit designCONTACT US FOR VOLUME PRICING
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Microchip - 1200V Silicon Carbide Power MOSFET Module
XProduct SKU: APTMC120AM08CD3AG
SiC technology delivers higher breakdown field strength and improved thermal conductivity compared to silicon material. This enables improved performance characteristics in parameters including zero reverse recovery, temperature independent behavior, higher voltage capability and higher temperature operation to achieve new levels of performance, efficiency and reliability. Microsemi has applied its extensive expertise in power semiconductor integration and packaging to develop its family of silicon carbide power modules that deliver outstanding levels of performance, reliability and overall quality. The modules also allow designers to shrink system size and weight, while reducing total systems costs.
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Microchip - 1200V Silicon Carbide Schottky Diodes
XProduct SKU: APT10SCD120B-P
Silicon Carbide (SiC) Schottky Diodes offer superior dynamic and thermal performance over conventional Silicon power diodes. SiC Schottky Diode Features - Essentially zero forward and reverse recovery = reduced switch and diode switching losses - Temperature independent switching behavior = stable high temperature performance - Positive temperature coefficient of VF = ease of parallel operation - Usable 175°C Junction Temperature = safely operate at higher temperatures SiC Schottky Diode Benefits - Improved System Efficiency - Higher Reliability - Lower System Switching Losses - Lower System Cost & Reduced System Size - Smaller EMI Filter - Smaller Magnetic Components - Smaller Heat-Sink - Smaller Switches, Eliminate Snubbers
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Microchip - 2-port Outdoor Passive PoE Hub
XProduct SKU: PD-9002GHO/AC
Microsemi single and multiport midspans are an economical and easy way to power popular devices such as WLAN access points, IP video phones, IP security cameras, security access devices, thin clients and printers over new or existing Ethernet infrastructure. Microsemi's PD-9002GHO Power over Ethernet (PoE) dual- port Passive Hub offers a cost effective, IEEE 802.3at compliant solution for outdoor installations, guaranteeing 30 Watts of power per port and ensuring safe and reliable operation in outdoor environment for two standard PoE data terminal. Unlike Midspans/Injectors, Passive PoE Hubs perform data connectivity between all its ports, and also deliver PoE to all ports. Unlike PoE Switches, PoE passive hubs do not have active switching components that waste power. It allows wireless LAN access points, security network cameras and other IP terminals to receive power, along with data, over standard Ethernet cables, leaving network infrastructure completely unaltered. The PD-9002GHO also offers surge protection for the AC and the PoE ports ensuring the indoor equipment is protected from outdoor surges.
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Microchip - 4-port Gigabit PoE Midspan
XProduct SKU: PD-3504G/AC
Microsemi single and multiport midspans are an economical and easy way to power popular devices such as WLAN access points, IP video phones, IP security cameras, security access devices, thin clients and printers over new or existing Ethernet infrastructure. Microsemi's PD-3504G offers a cost effective, fully IEEE 802.3af compliant solution to upgrade existing infrastructures with PoE, providing a maximum of 15.4 watts of power through each port and ensuring safe operation of any standard PoE data terminal. PD-3504G provides PoE to IP telephones, wireless LAN access points, security network cameras and IP terminals to receive power, along with data, over standard Ethernet cables, leaving network infrastructure completely unaltered
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Microchip - 4-port Gigabit PoE Midspan
XProduct SKU: PD-3504G/AC
Microsemi single and multiport midspans are an economical and easy way to power popular devices such as WLAN access points, IP video phones, IP security cameras, security access devices, thin clients and printers over new or existing Ethernet infrastructure. Microsemi's PD-3504G offers a cost effective, fully IEEE 802.3af compliant solution to upgrade existing infrastructures with PoE, providing a maximum of 15.4 watts of power through each port and ensuring safe operation of any standard PoE data terminal. PD-3504G provides PoE to IP telephones, wireless LAN access points, security network cameras and IP terminals to receive power, along with data, over standard Ethernet cables, leaving network infrastructure completely unaltered
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Microchip - 650V Silicon Carbide Shottky Diodes
XProduct SKU: APT10SCD65K-P
Silicon Carbide (SiC) Schottky Diodes offer superior dynamic and thermal performance over conventional Silicon power diodes. SiC Schottky Diode Features - Essentially zero forward and reverse recovery = reduced switch and diode switching losses - Temperature independent switching behavior = stable high temperature performance - Positive temperature coefficient of VF = ease of parallel operation - Usable 175°C Junction Temperature = safely operate at higher temperatures SiC Schottky Diode Benefits - Improved System Efficiency - Higher Reliability - Lower System Switching Losses - Lower System Cost & Reduced System Size - Smaller EMI Filter - Smaller Magnetic Components - Smaller Heat-Sink - Smaller Switches, Eliminate Snubbers
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Microchip - 650V Silicon Carbide Shottky Diodes
XProduct SKU: APT10SCD65K-P
Silicon Carbide (SiC) Schottky Diodes offer superior dynamic and thermal performance over conventional Silicon power diodes. SiC Schottky Diode Features - Essentially zero forward and reverse recovery = reduced switch and diode switching losses - Temperature independent switching behavior = stable high temperature performance - Positive temperature coefficient of VF = ease of parallel operation - Usable 175°C Junction Temperature = safely operate at higher temperatures SiC Schottky Diode Benefits - Improved System Efficiency - Higher Reliability - Lower System Switching Losses - Lower System Cost & Reduced System Size - Smaller EMI Filter - Smaller Magnetic Components - Smaller Heat-Sink - Smaller Switches, Eliminate Snubbers
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Microchip - AVR-IOT Eval Board AC164160
XProduct SKU: AC164160
The AVR-IoT WG development board is a small and easily expandable demonstration and development platform for IoT solutions, based on the AVR® microcontroller architecture using Wi-Fi® technology. It was designed to demonstrate that the design of a typical IoT application can be simplified by partitioning the problem into three blocks: • Smart - represented by the ATmega4808 microcontroller • Secure - represented by the ATECC608A secure element • Connected - represented by the WINC1510 Wi-Fi controller module .
Features
The AVR-IoT WG development board features a USB interface chip Nano Embedded Debugger (nEDBG) that provides access to a serial port interface (serial to USB bridge), a mass storage interface for easy ‘drag and drop’ programming, configuration and full access to the AVR microcontroller UPDI interface for programming and debugging directly from Microchip MPLAB® X IDE and the Atmel® Studio 7.0 IDE. The AVR-IoT WG development board comes preprogrammed and configured for demonstrating connectivity to the Google Cloud IoT Core. The AVR-IoT WG development board features two sensors: • A light sensor • A high-accuracy temperature sensor - MCP9808 Additionally, a mikroBUS™ connector is provided to expand the board capabilities with 450+ sensors and actuators offered by MikroElektronika (www.mikroe.com) via a growing portfolio of Click boards™From£35.00(Ex. VAT)
8 In stock
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Microchip - BM83
XProduct SKU: BM83SM1-00AB-P
Overview coming soon - Call 01527 830800 for information
Features
Bluetooth 5.0 certified HFP 1.7 (HF Unit Role Only), HSP 1.2, A2DP 1.3 (Source and Sink), SPP 1.2, AVRCP 1.6, PBAP 1.2 Supports Bluetooth classic (BR/EDR) and Bluetooth Low Energy (BLE) General Attribute Profile (GATT) and General Access Profile (GAP) AAC and SBC decoding Bluetooth Low Energy Data Length Extension (DLE) and secure connectionFrom£6.95(Ex. VAT)
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Microchip - BM83 eval
XProduct SKU: DM164152
The BM83 Bluetooth Audio Development Board (BM83 EVB) enables the user to evaluate and demonstrate thefunctionality of the BM83 audio module and IS2083BM System-on-Chip (SoC). This board is a complete, all-in-onesolution to develop multiple Bluetooth audio applications including portable speakers and headphones. The BM83EVB features an on-board PIC32 for Host MCU mode applications, an external codec to improve audio quality, adigital microphone to capture voice audio, indicator LEDs and buttons for ease of development.
Features
Package Contents • On-board microcontroller (PIC32MX450F256L) for easy operation and feature demonstration • Plug-in module (PIM) socket for external microcontroller (MCU) • STMicroelectronics codec (STA369BW) Daughter Board • Two Digital Microphone (Knowles’ SPH0641LU4H-1) Daughter Board • J-Link 6-Pin Adapter Board for IS2083BM debugging (contact factory for information about the SDK) • On-board keypad matrix (audio control buttons) that can be controlled either by the BM83 module or the onboard PIC32 MCUSpecifications
Bluetooth 5 certified BM83 module • Aux-in, MIC-In, and Stereo out ports • On-board thermistor • 2 LEDs for the Bluetooth subsystem and various other LEDs configurable by the on-board MCU • JTAG program/debug port, USB to UART port, XPRO header interfaces • Li-ion battery connector, 15V DC power jack and USB power sourceFrom£365.00(Ex. VAT)
4 In stock
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Microchip - Charge Controller MCP73831
XProduct SKU: MCP79412T-I/MNY-P
19800 In stock
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Microchip - Igloo Family
XProduct SKU: AGLN-NANO-KIT
The Microsemi IGLOO® series of low-power flash FPGAs includes IGLOO/e, IGLOO nano and IGLOO PLUS - the industry's low-power FPGAs. IGLOO FPGA family are designed to meet the demand of low power and small foot print requirements of today's portable and power-conscious electronics. The IGLOO low-power FPGA family support up to 35K logic elements with up to 504 kbits of true dual-port SRAM, up to 6 embedded PLLs, and up to 620 user I/Os. Low-power applications that require 32-bit processing can use the ARM ® Cortex-M1 processor without license fee or royalties in M1 IGLOO devices. The IGLOO FPGA family devices are available in small footprint (3x3, 4x4, 5x5, 6x6 and 8x8 mm), high density, chip-scale and quad flat no-lead packages. The IGLOO series includes: - IGLOO/e with ARM Cortex-M1 - IGLOO nano - IGLOO PLUS
Features
Flash*Freeze Technology
The Flash*Freeze technology used in IGLOO devices enables easy entry and exit from low power mode which consumes as little as 2 µW, while retaining SRAM and register data. Flash*Freeze technology simplifies power management through I/O and clock management without a need to turn off voltages, I/Os, or clocks at the system level.In Flash*Freeze mode, power drops to as low as 2 µW, and no additional components are required to turn off I/Os or clocks while preserving the design information, SRAM content, and registers. I/Os can maintain their state during Flash*Freeze mode. Entering and exiting Flash*Freeze mode takes less than 1 µs.Small Footprint Packages
Microsemi IGLOO low-power FPGAs are true single-chip devices, do not require configuration or other support components, and offer a variety of small-footprint packages with high I/O pin count to match design needs. The Microsemi IGLOO family is offered in a small form factor (3x3, 4x4, 5x5, 6x6, and 8x8 mm), high-density, chip-scale packages and quad flat no-lead packagesSpecifications
Device Comparison
IGLOO Family | IGLOO/e | IGLOO nano | IGLOO PLUS |
---|---|---|---|
ARM - Enabled | M1 IGLOO/e | ||
Overview | The low-power programmable solution | The industry's lowest-power, smallest-size solution | The low-power FPGA with more I/O per LE compared to IGLOO |
Equivalent LEs | 330-35K | 100-3K | 330-1K |
Max User I/Os | 620 | 71 | 212 |
Power Consumption | 5 µW | 2 µW | 5 µW |
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Make an EnquiryMicrochip - Libero License
XProduct SKU: LIB-G-F-1YR-P
Libero® SoC Design Suite offers high productivity with its comprehensive, easy-to-learn, easy-to-adopt development tools for designing with Microsemi's PolarFire SoC ,PolarFire, IGLOO2, SmartFusion2, RTG4, SmartFusion, IGLOO, ProASIC3 and Fusion families.
Features
To work with Libero SoC Design Suite, a valid Libero license must be installed. There are several types of Libero licenses: - Evaluation - Silver - Gold - Platinum - Archival Silver and Evaluation licenses are available for free, while the other licenses are paid licenses.CONTACT US FOR VOLUME PRICING
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Microchip - LoRa Module WLR089U0
XProduct SKU: WLR089U0-I/RM
The WLR089U0 module is an ultra-low power, regulatory certified LoRa module based on the ATSAMR34J18 LoRa IC. This standalone module includes a 32-bit ARM® Cortex®-M0+ processor and offers 256KB of Flash and 40KB of SRAM (8KB battery backed) in a compact 17 x 13.5 mm package. With ultra-low power sleep currents as low as 790nA, the WLR089U0 modules are ideal for battery powered remote sensor applications. The highly configurable module peripherals include up to 4 SERCOMs (configurable as I2C/SPI /UART/LIN interfaces) with one in the low power domain, 7 12-bit ADC channels and 2 analog comparators. The module supports LoRa, FSK, MSK and OOK modulations and delivers up to 18.6 dBm TX power with an RX sensitivity down to -136 dBm. The module operates from 863 to 928 MHz and is FCC, IC and RED certified. Supported by WLR089 Xplained Pro Evaluation Kit (EV23M25A), Atmel Studio and a detailed module reference design package, these modules highly simplify the development and accelerate the time to market for LoRa end-nodes.
Features
- Ultra-low power LoRa Module - Based on highly integrated, ultra-low power SAM R34/35 LoRa family - Standalone module with 256 KB flash and 40KB RAM - 863 to 928 MHz dual-band coverage - Compact surface mount module : 17 mm x 13.5 mm size - FCC, IC and RED certifiedSpecifications
The highly configurable module peripherals include up to 4 SERCOMs (configurable as I2C/SPI /UART/LIN interfaces) with one in the low power domain, 7 12-bit ADC channels and 2 analog comparators. The module supports LoRa, FSK, MSK and OOK modulations and delivers up to 18.6 dBm TX power with an RX sensitivity down to -136 dBm. The module operates from 863 to 928 MHz and is FCC, IC and RED certified. Supported by WLR089 Xplained Pro Evaluation Kit (EV23M25A), Atmel Studio and a detailed module reference design package, these modules highly simplify the development and accelerate the time to market for LoRa end-nodes.From£10.55(Ex. VAT)
1011 In stock
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Microchip - LoRa RN2483 Evaluation Kit
XProduct SKU: DM164138
The RN2483 is a fully-certified 868 MHz module based on wireless LoRa® technology. The RN2483 utilizes a unique spread spectrum modulation within the Sub-GHz band to enable long range, low power, and high network capacity. The module's embedded LoRaWAN protocol enables seamless connectivity to any LoRaWAN compliant network infrastructure, whether public or privately deployed. The module is specifically designed for ease of use, which shortens development time and speeds time to market. LoRa technology is ideal for battery-operated sensors and low power applications such as IoT, M2M, Smart City, Sensor networks, Industrial automation, and more. The RN2483 is the first LoRa module to pass LoRa Alliance Certification testing. It is certified to the LoRaWAN 1.0.1 specification, ensuring that designers can quickly and easily integrate their end devices into any LoRaWAN network. Firmware Versions RN2483A-I/RM104 - LoRaWAN Specification 1.0.1, Ideal for Class A applications, Regulatory and LoRaWAN certified RN2483A-I/RM105 - LoRaWAN specification 1.0.2, Supports both Class A and Class C, Regulatory certified Microchip's complimentary and confidential Wireless Check online design review service is available for customers who have selected our products for their application design-in*. *The online design review service is subject to Microchip's Program Terms and Conditions and requires a myMicrochip account.
Features
Additional Features
- On-board LoRaWAN protocol stack - ASCII command interface over UART - Compact form factor 17.8 x 26.7 x 3 mm - Castellated SMT pads for easy and reliable PCB mounting - Device Firmware Upgrade (DFU) over UART - 14 GPIO for control, status, and ADC - Highly integrated module with MCU, crystal, EUI-64 Node Identity Serial EEPROM, Radio transceiver with analog front end, and matching circuitry - Environmentally friendly, RoHS compliant - European R&TTE Directive Assessed Radio ModuleFrom£84.35(Ex. VAT)
4 In stock
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