GPS USB Reference Design Using the MAX2769

The MAX2769 is a low-cost, single-conversion, low-IF frequency GPS receiver that provides 115dB cascaded gain and a 1.4dB cascaded NF. The MAX2769 GPS USB reference design, working together with the GeotateSM GPS software installed in a PC or laptop, forms a complete low-cost high-sensitivity GPS solution. The reference design provides high-precision position information with quick acquisition times. It demonstrates the excellent capabilities of the MAX2769 in a full GPS receiver design.

MAX2830 WLAN Reference Design

This reference design is a complete RF front-end solution designed to meet the WLAN IEEE® 802.11b/g standard. Using the MAX2830 RF transceiver, the design is capable of accommodating full range of 802.11g OFDM data rates (6, 9, 12, 18, 24, 36, 48, and 54Mbps) and 802.11b QPSK data rates (1, 2, 5.5, and 11Mbps). This solution offers high performance, small size, and low BOM cost.

MAX2769 GPS Reference Design

This reference design is a complete RF front-end solution for a GPS receiver using Maxim's MAX2769 GPS receiver chip. The MAX2769 is a low cost, single conversion, low IF GPS receiver that offers two integrated LNAs with different specifications, I/Q channel filters with variable bandwidth and order, and a digital IF output that supports 1-bit and 2-bit operation. This reference design offers high performance, small size, and low BOM cost.

DVB-T Receiver Reference Design for the MAX3580

The MAX3580 DVB-T reference design meets NorDig 1.0.3 and MBRAI requirements. This NIM design includes the MAX3580 direct-conversion tuner and a DVB-T demodulator/decoder. A discrete, active loop-through with low power consumption and low cost is included. Target applications include digital televisions, digital terrestrial set-tops, laptop televisions, automotive televisions, and USB peripherals.

Simple wireless temperature monitor also has data logging capabilities

This design idea shows how you can design a simple wireless temperature-monitoring system with data-logging capabilities by using a local temperature sensor and an ASK transmitter and receiver pair.

PASADENA (MAXREFDES31#): 3.3V and 5V POE power devices

Pasadena (MAXREFDES31#) is a highly efficient, flyback, 3.3V and 5V Class 4 powered device (PD) with a 40V to 57V auxiliary input. The design features the MAX5969B as the controller. The MAX5974A controls current-mode PWM converters and provides frequency foldback for both the auxiliary input and power-over-Ethernet (PoE) applications. The design is a high-performance, compact, IEEE® 802.3af/at compliant, cost-efficient solution for a PD with power level up to Class 4. The design can also support the auxiliary-input to provide approximately 21W output power.

Schematic PCB

MAXREFDES39#: Power Amplifier Biasing with MAX11300 PIXI

Maxim's Power Amplifier Biasing (MAXREFDES39#) features a PA Bias circuit with the flexible Programmable Mixed Signal I/O (PIXI™) product, the MAX11300. The 2-stage amplifier design biases a 15W, LDMOS PA implemented with unprecedented simplicity, and is capable of biasing many existing PAs. Design files are available and boards are available for purchase.

PPCEVAL-CDS-8548: Customer development system for MPC8548E

The configurable development system (CDS) supports a wide range of NXP processors built on Power Architecture technology.

MPC8272ADS: Application development system for MPC8272

The MPC8272ADS board is designed to aid hardware and software developers of the PowerQUICC II family by providing an evaluation platform for MPC8272/48 derivatives in the 516-pin PBGA (ZQ/VR) package.

Schematic PCB

TWR-P1025: QorIQ ^® P1 MPU Towersystem module

NXPThe TWR-P1025 processor module is also available as a standalone single-board computer (SBC) development platform or as a towerSystem rapid prototyping development platform.

Schematic PCB

MPC-LS-VNP-EVB: MPC-LS evaluation board for automotive network processing

The MPC-LS-VNP-EVB is an evaluation and development board designed for automotive network processing applications and is suitable for advanced gateway development to deliver new vehicle services and edge data analytics.

P5040RDB: QorIQ ^® P5040 Reference Design Board

The QorIQ ^® P5040 Reference Design Board (P5040-RDB) is a flexible system supporting the quad-core P5040 processor.

P1010RDB: QorIQ ^® P1010 Reference Design Board

NXPThe P1010 RDB is a highly integrated reference design board that can help you get to market faster.

CWH-CTP-CTX10-YE: QorIQ LS processor debugger header for CodeWarrior TAP

CWH-CTP-CTX10-YE is a removable debugger header for QorIQ LS.

CWH-CTP-COP-YE: Power Architecture ^® Processor (COP) Debugger Header for CodeWarrior ^{® TAP}

NXPCWH-CTP-COP-YE is a removable debugger header for Power Architecture® processors.

Schematic PCB

P2020RDB: P2020 Reference Design Board

NXPThe P2020RDB is a highly integrated reference design board that can help you get to market faster.

LPC845-BRK: LPC845 breakout board for LPC84x series MCUs

The LPCXpresso845 breakout board is an ultra-low-cost development board for evaluation and prototyping using the LPC84x series MCUs.

Schematic PCB

QorIQ ^® LS2088A Reference Design Board

The QorIQ® LS2088A Reference Design Board is a comprehensive platform for designing and evaluating the QorIQ LS2088A processor. This RDB comes preloaded with the standard Linux kernel-based Board Support Package (BSP).

MPC837XEMDS: MPC837xE Modular Development System

The MPC837x Modular Development System (MDS) provides a platform to help designers develop systems based on the MPC837xE series. With the platform, designers can deploy chips, develop new software applications, and perform performance benchmarks.

MPC8349EMITXE: MPC8349E-mITXE Reference Platform

The MPC8349E-mITXE reference platform demonstrates the capabilities of the NXP Power Architecture MPC8349E processor.

Schematic PCB