NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Part | Manufacturer | Description | Samples | Ordering |
| MAXQ2000-RAX+ | Maxim Integrated Products | IC 16-BIT, FLASH, 20 MHz, RISC MICROCONTROLLER, QCC68, 10 X 10 MM, 0.90 MM HEIGHT, ROHS COMPLIANT, MO-220, QFN-68, Microcontroller | 
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| MAXQ2000-RFX | Maxim Integrated Products | IC 16-BIT, FLASH, 20 MHz, RISC MICROCONTROLLER, PQFP100, 14 X 14 MM, 1.40 MM HEIGHT, LQFP-100, Microcontroller |
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| MAXQ2000-QAX+ | Maxim Integrated Products | IC 16-BIT, FLASH, 20 MHz, RISC MICROCONTROLLER, QCC68, 10 X 10 MM, 0.90 MM HEIGHT, ROHS COMPLIANT, MO-220, QFN-68, Microcontroller |
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| MAXQ2000-QAX | Maxim Integrated Products | Low-Power LCD Microcontroller |
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| MAXQ2000-QBX+ | Maxim Integrated Products | IC 16-BIT, FLASH, 20 MHz, RISC MICROCONTROLLER, QCC56, 8 X 8 MM, 0.80 MM HEIGHT, ROHS COMPLIANT, MO-220, TQFN-56, Microcontroller |
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| Part | Manufacturer | Description | Type | Ordering |
| MAXQ2000 | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
39 pages, |
Original | |
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| MAXQ2000-KIT | Maxim Integrated Products, Inc. | Evaluation Kit for the MAXQ2000 |
15 pages, |
Original | |
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| MAXQ2000-KIT | Maxim Integrated Products, Inc. | Evaluation kit |
14 pages, |
Original | |
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| MAXQ2000-QAX | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
39 pages, |
Original | |
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| MAXQ2000-QAX+ | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
39 pages, |
Original | |
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| MAXQ2000-QBX | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
39 pages, |
Original | |
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| MAXQ2000-QBX+ | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
39 pages, |
Original | |
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| MAXQ2000-RAX | Maxim Integrated Products, Inc. | 2.5 V, Low-power microcontroller |
39 pages, |
Original | |
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| MAXQ2000-RAX+ | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
39 pages, |
Original | |
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| MAXQ2000-RAX+ | Maxim Integrated Products, Inc. | Low-Power LCD Microcontroller |
40 pages, |
Original | |
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| Catalog Datasheet Results | Type | Document Tags |
| Abstract: Rev: 060608 ERRATA SHEET MAXQ2000 Revision A3 Errata The errata listed below describe situations where MAXQ2000 revision A3 components perform differently than expected or differently than described in the data sheet. Maxim Integrated , applies to MAXQ2000 revision A3 components. Revision A3 components are branded on the topside of the , year and work week of manufacture, respectively. To obtain an errata sheet on another MAXQ2000 die ... | Original |
1 pages, |
MAXQ2000 MAXQ2000 abstract |
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| Abstract: MAXQ2000-KIT. The MAX6970 MAX6970 evaluation (EV) kit schematic is shown in Figure 1. A MAXQ2000 EV kit board is , , sequence, 4-wire serial interface, push button, MAXQ2000, MAXQ IAR Workbench, example code, assembler, microcontroller Mar 23, 2009 APPLICATION NOTE 4379 Display Different LED Sequences Using the MAXQ2000 , provides all the firmware required to interface the MAXQ2000 microcontroller evaluation (EV) kit to the , uses a 4-wire serial interface. Using this application note, the MAX6970 MAX6970 can be used with the MAXQ2000 ... | Original |
4 pages, |
ON 4379 MAXQ2000-KIT MAXQ2000 MAX6970 APP4379 LED Sign Board Diagram 16 8 LED sequence driver sign board LED DISPLAY CIRCUIT diagram MAXQ2000 abstract |
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| Abstract: , and documentation needed to start designing with MAXQ2000. Schematics for the MAXQ2000 EV kit are , ) communicates to the MAX7312 MAX7312 by bit-banging an I²C interface on the MAXQ2000's general-purpose input/output (GPIO) ports. The MAXQ2000's 20MHz system clock allows the bitbanged I²C interface to run at up to , Game Uses the MAXQ2000 and MAX7312 MAX7312 By: Gordon Lee Abstract: This application note is an LED target-practice game. The game demonstrates the capabilities of the MAXQ2000 microcontroller (MAXQ20 MAXQ20 core) and ... | Original |
3 pages, |
rolling display using led MAXQ2000 MAXQ20 MAX7312 APP4533 led scrolling sign 4533 MAX7312 abstract |
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| Abstract: start designing with MAXQ2000 microcontroller. Schematics for the MAXQ2000EV kit are available in the , ) initializes the MAXQ2000's UART, calls the high-speed I2C read function from hsi2c.asm, and transmits the , high-speed I2C interface on the MAXQ2000's general-purpose input/output (GPIO) ports. The MAXQ2000's 20MHz , controller firmware source code May 09, 2007 APPLICATION NOTE 4042 Using the MAXQ2000 to Implement a , the firmware required to interface the MAXQ2000 microcontroller (MAXQ20 MAXQ20 core) to the MAX1169 MAX1169 16-bit ... | Original |
6 pages, |
MAXQ2000 MAXQ20 MAX1169 APP4042 4042 MAX116 ic 4042 MAXQ2000 abstract |
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| Abstract: setup the MAXQ2000 Evaluation Kit (EV kit) as a simple voltmeter. This EV kit contains the MAXQ2000-RAX , Sheet - Free Samples MAXQ2000: QuickView - Full (PDF) Data Sheet - Free Samples MAXQ2000-KIT , an4194_sw.zip, which is available for download. The firmware uses the MAXQ2000's hardware SPITM interface to , of 30 times per second. The MAX1407 MAX1407's DRDY (Data Ready) line is connected to the MAXQ2000's P6.1 , , Schottky diodes should be connected between the IN0 pin and the +3.3V supply and ground. The MAXQ2000-RAX ... | Original |
4 pages, |
APP4194 digital voltmeter high voltage voltmeter MAX1407 MAXQ2000 MAXQ2000-KIT MAXQ2000-RAX TL084 DATA SHEET tl084 ic radio project abstract maxim rs232 multiplexer TL084 radio shack MAXQ2000 abstract |
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| Abstract: start designing with MAXQ2000. Schematics for the MAXQ2000-KIT are available in the data sheet. The , circuit utilizes the MAX4397EVKIT MAX4397EVKIT and MAXQ2000-KIT. The MAX4397 MAX4397 EV kit consists of the MAX4397 MAX4397, all , by bit-banging an I²C interface on the MAXQ2000's general-purpose input/output (GPIO) ports. The MAXQ2000's 16MHz system clock allows the bit-banged I²C interface to run up to 400KHz; the firmware's , Full (PDF) Data Sheet - Free Samples MAXQ2000-KIT: QuickView - Full (PDF) Data Sheet AN3568 AN3568, AN ... | Original |
5 pages, |
MAXQ2000-KIT AN3568 APP3568 CVBS_OUT MAX4397 MAX4397EVKIT MAX4399 MAXQ20 MAXQ2000 "Pushbutton Switch" MAX4398 MAXQ2000 abstract |
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| Abstract: , controls the MAXQ2000's debugging features. This debug engine can invoke service routines in the on-board , engine takes place over the MAXQ2000's dedicated JTAG TAP interface, which is compatible with the JTAG IEEE Standard 1149. All communication with the debug engine takes place over the MAXQ2000's , the system clock rate for the MAXQ2000. 4 Breakpoint settings can be read and written through , microcontroller core, controls the MAXQ2000's debugging features. Because the JTAG TAP port is not used for ... | Original |
6 pages, |
MAXQ20 MAX1407 MAXQ2000 MAXQ2000 abstract |
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| Abstract: the MAXQ2000. The firmware supplied with the reference design will automatically detect and configure , , MAXQ2000 high speed microcontroller, I²C communication, serial, Ethernet ports, Interface for voice over IP , based on the MAX5945 MAX5945, a quad network power controller. A MAXQ2000 microcontroller provides system-level , (MAX3420 MAX3420). Three types of DIMM-format cards. A master card holds a MAXQ2000 microcontroller, a MAX5020 MAX5020 , power 24 channels. The MAXQ2000 uses I²C to communicate with the MAX5945s, which are located either on ... | Original |
4 pages, |
DIAGRAM OF IC MICROCONTROLLER MAX3250 MAX5020 MAX5945 MAXQ2000 schematic diagram power supply Poe PC MOTHERBOARD block diagram ethernet card schematic PC MOTHERBOARD POWER DISTRIBUTION usb to rj45 converter schematic diagram schematic diagram 48V power supply Poe MAX5945 abstract |
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| Abstract: to 48 MAX5945 MAX5945 quad controllers (thus providing 4 to 192 ports) can be connected to the MAXQ2000. The , , MAXQ2000 high speed microcontroller, I²C communication, serial, Ethernet ports, Interface for voice over , is based on the MAX5945 MAX5945, a quad network power controller. A MAXQ2000 microcontroller provides , a MAXQ2000 microcontroller, a MAX5020 MAX5020 DC-DC converter to generate +3.3V output from -48V input, and six MAX5945 MAX5945 network power controllers to power 24 channels. The MAXQ2000 uses I²C to communicate with ... | Original |
5 pages, |
APP4091 DIAGRAM OF IC MICROCONTROLLER ethernet card schematic i2c to RS-232 converter MAX3250 MAX5945 MAXQ2000 motherboard schematic diagram MAX5020 usb to rj45 converter schematic diagram PC MOTHERBOARD processor supply diagram PC MOTHERBOARD CIRCUIT diagram MAX5945 abstract |
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| Abstract: will be compiled for IAR and MAXQ2000. To compile the driver for CrossWorks for MAXQ, modify the lines , Maxim > App Notes > MICROCONTROLLERS Keywords: MAXQ, MAXQ UART, MAXQ2000 EV Kit, IAR, Rowley , Abstract: The application note demonstrates how to configure the MAXQ2000 microcontroller EV kit and MAXQ , on the MAXQ2000 microcontroller evaluation (EV) kit. The MAXQ serial driver is available for the IAR , source file, maxq_serial.h, supplied in the MAXQ2000 EV kit. The MAXQ serial driver provides the ... | Original |
5 pages, |
MAXQ2000 APP3904 an3904 MAXQ2000 abstract |
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| Abstract: Rev 2; 7/05 MAXQ2000 Evaluation Kit The MAXQ2000 evaluation kit (EV kit) is a proven platform to conveniently evaluate the capabilities of the MAXQ2000 low-power LCD microcontroller. The kit contains the MAXQ2000 with pins brought out to headers, a JTAG programming interface, fixed and adjustable , capabilities of the MAXQ2000. Evaluation Kit Contents Features Easily Loads Code Using Bootstrap , Level Translator MAXQ2000 Evaluation Kit Board with Processor and 13.5MHz Crystal Installed ... | Original |
15 pages, |
omron pushbutton j7 DB9 omron DS1077L DS2433 DS9094F MAX1407 MAX1658 MAX338 MAX3387E MAXQ2000 MAXQ2000-KIT 14 segment display RS-232 MAXQ2000 abstract |
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| Abstract: Rev 2; 7/05 MAXQ2000 Evaluation Kit The MAXQ2000 evaluation kit (EV kit) is a proven platform to conveniently evaluate the capabilities of the MAXQ2000 low-power LCD microcontroller. The kit contains the MAXQ2000 with pins brought out to headers, a JTAG programming interface, fixed and adjustable , capabilities of the MAXQ2000. Evaluation Kit Contents Features Easily Loads Code Using Bootstrap , Level Translator MAXQ2000 Evaluation Kit Board with Processor and 13.5MHz Crystal Installed ... | Original |
15 pages, |
crystal 7.3728MHz dallas ds2433S DB9 omron DS1077L DS1077LZ-40 DS2433 DS9094F MAX1407 MAX1658 MAX3387E MAXQ2000 MAXQ2000-KIT omron pushbutton j7 P42 10K potentiometer MAXQ2000 abstract |
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| Abstract: to conveniently evaluate the capabilities of the MAXQ2000 low-power LCD microcontroller. The kit contains the MAXQ2000 with pins brought out to headers, a JTAG programming interface, fixed and adjustable , evaluating the capabilities of the MAXQ2000. Evaluation Kit Contents MAXQ2000 Evaluation Kit Board with , Directly over JTAG Interface MAXQ2000 LCD Display Daughterboard Processor Clock can be run from Crystal or Programmable Oscillator MAXQ2000 Evaluation Kit CD-ROM I2CTM Serial EEPROM Included ... | Original |
14 pages, |
VI-502-DP-RC DS1077L DS2433 DS9094F JTAG CONNECTOR MAX1407 MAX1658 MAX338 MAX3387E MAXQ2000 MAXQ2000-KIT sda61 DB9 omron ECJ2VC1H100D MAXQ2000-KIT abstract |
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| Abstract: Maxim > App Notes > MICROCONTROLLERS Keywords: MAXQ, MAXQ2000, Rowley, CrossWorks, ANSI C, C , MAXQ2000 Evaluation Kit Abstract: The MAXQ2000 is a powerful, low-cost, low-power microcontroller with , The application note shows how to set up the MAXQ2000 Evaluation Kit and get started using the , the MAXQ2000 Evaluation Kit and CrossWorks. Overview The MAXQ microcontroller development , how to use CrossWorks v.1.0 and the MAXQ2000 Evaluation Kit to create, build, and debug applications ... | Original |
17 pages, |
MAXQ2000-RAX MAXQ2000-KIT MAXQ2000 APP3698 MAXQ2000 abstract |
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| Part | Cross | Competitor Manufacturer | Details | Description |
| MAXQ2000-RAX Buy | MSP430F435 Buy | Texas Instruments | Benefits of the MAXQ2000-RAX over the MSP430F435 | 64KB flash and 2KB RAM, which enables larger, more complex applications, vs. 16KB flash and 512B RAM for the MSP430F435 Clock rate of 20MHz approaches 20 MIPS, vs. 16 MIPS for the MSP430F435 Hardware multiplier can multiply-and-accumulate in 1 clock cycle, vs. no hardware multiplier of the MSP430F435 Hardware Multiplier has a 40-bit accumulator to perform more complex math, vs. no hardware multiplier for the MSP430435 LCD controller with a separate module to perform the timing for the commons and segments, vs. using one of the timers (BASIC TIMER 1) to generate timing for the commons and segments for the MSP430F435 Internal adjustable resistor allow contrast control without external components, vs. the need for external components to allow contrast control for the MSP430F435 Internal voltage-divider resistors eliminate external components, vs. the need for external voltage-divider resistors for the MSP430F435 Separate modules for SPI and USART, so both peripherals can be utilized, vs. multiplexed USART and SPI for the MSP430F435 Separate I/O supply for optimum flexibility, vs. separate I/O supply for the MSP430F435 |
| MAXQ2000-RAX Buy | MSP430F436 Buy | Texas Instruments | Benefits of the MAXQ2000-RAX over the MSP430F436 | 64KB flash and 2KB RAM, which enables larger, more complex applications, vs. 24KB flash and 1024B RAM for the MSP430F436 Clock rate of 20MHz approaches 20 MIPS, vs. 16 MIPS for the MSP430F436 Hardware multiplier can multiply-and-accumulate in 1 clock cycle, vs. no hardware multiplier of the MSP430F436 Hardware Multiplier has a 40-bit accumulator to perform more complex math, vs. no hardware multiplier for the MSP430436 LCD controller with a separate module to perform the timing for the commons and segments, vs. using one of the timers (BASIC TIMER 1) to generate timing for the commons and segments for the MSP430F436 Internal adjustable resistor allow contrast control without external components, vs. the need for external components to allow contrast control for the MSP430F436 Internal voltage-divider resistors eliminate external components, vs. the need for external voltage-divider resistors for the MSP430F436 Separate modules for SPI and USART, so both peripherals can be utilized, vs. multiplexed USART and SPI for the MSP430F436 Separate I/O supply for optimum flexibility, vs. separate I/O supply for the MSP430F436 |
| MAXQ2000-RAX Buy | MSP430F437 Buy | Texas Instruments | Benefits of the MAXQ2000-RAX over the MSP430F437 | 64KB flash and 2KB RAM, which enables larger more complex applications, vs. 32KB flash and 1024B RAM for the MSP430F437 Clock rate of 20MHz approaches 20 MIPS, vs. 16 MIPS for the MSP430F437 Hardware multiplier can multiply-and-accumulate in 1 clock cycle, vs. no hardware multiplier of the MSP430F437 Hardware Multiplier has a 40-bit accumulator to perform more complex math, vs. no hardware multiplier for the MSP430437 LCD controller with a separate module to perform the timing for the commons and segments, vs. using one of the timers (BASIC TIMER 1) to generate timing for the commons and segments for the MSP430F437 Internal adjustable resistor allow contrast control without external components, vs. the need for external components to allow contrast control for the MSP430F437 Internal voltage-divider resistors eliminate external components, vs. the need for external voltage-divider resistors for the MSP430F437 Separate modules for SPI and USART, so both peripherals can be utilized, vs. multiplexed USART and SPI for the MSP430F437 Separate I/O supply for optimum flexibility, vs. separate I/O supply for the MSP430F437 |
| MAXQ2000-RAX Buy | MSP430F447 Buy | Texas Instruments | Benefits of the MAXQ2000-RAX over the MSP430F447 | 64KB flash and 2KB RAM, which enables larger, more complex applications, vs. 32KB flash and 1024B RAM for the MSP430F447 Clock rate of 20MHz approaches 20 MIPS, vs. 16 MIPS for the MSP430F447 Hardware Multiplier can multiply-and-accumulate in 1 clock cycle (3X faster), vs. multiply-and-accumulate in 3 clock cycles for the MSP430F447 Hardware Multiplier has a 40-bit accumulator to perform more complex math, vs. a 32-bit accumulator with the MSP430F447 LCD controller with a separate module to perform the timing for the commons and segments, vs. using one of the timers (BASIC TIMER 1) to generate timing for the commons and segments for the MSP430F447 Internal adjustable resistor allow contrast control without external components, vs. the need for external components to allow contrast control for the MSP430F447 Internal voltage-divider resistors eliminate external components, vs. the need for external voltage-divider resistors for the MSP430F447 Separate modules for SPI and USART, so both peripherals can be utilized, vs. multiplexed USART and SPI for the MSP430F447 Separate I/O supply for optimum flexibility, vs. separate I/O supply for the MSP430F447 |
| MAXQ2000-RAX Buy | MSP430F448 Buy | Texas Instruments | Benefits of the MAXQ2000-RAX over the MSP430F448 | 64KB flash and 2KB RAM, which enables larger, more complex applications, vs. 48KB flash and 512B RAM for the MSP430F448 Clock rate of 20MHz approaches 20 MIPS, vs. 16 MIPS for the MSP430F448 Hardware Multiplier can multiply-and-accumulate in 1 clock cycle (3X faster) vs. multiply-and-accumulate in 3 clock cycles for the MSP430F448 Hardware Multiplier has a 40-bit accumulator to perform more complex math, vs. a 32-bit accumulator with the MSP430F448 LCD controller with a separate module to perform the timing for the commons and segments, vs. using one of the timers (BASIC TIMER 1) to generate timing for the commons and segments for the MSP430F448 Internal adjustable resistor allow contrast control without external components, vs. the need for external components to allow contrast control for the MSP430F448 Internal voltage-divider resistors eliminate external components, vs. the need for external voltage-divider resistors for the MSP430F448 Separate modules for SPI and USART, so both peripherals can be utilized, vs. multiplexed USART and SPI for the MSP430F448 Separate I/O supply for optimum flexibility, vs. separate I/O supply for the MSP430F448 |
| MAXQ2000-RAX Buy | MSP430F449 Buy | Texas Instruments | Benefits of the MAXQ2000-RAX over the MSP430F449 | 64KB flash and 2KB RAM, which enables larger, more complex applications, vs. 60KB flash and 512B RAM for the MSP430F449 Clock rate of 20MHz approaches 20 MIPS, vs. 16 MIPS for the MSP430F449 Hardware Multiplier can multiply-and-accumulate in 1 clock cycle (3X faster), vs. multiply-and-accumulate in 3 clock cycles for the MSP430F449 Hardware Multiplier has a 40-bit accumulator to perform more complex math, vs. a 32-bit accumulator with the MSP430F449 LCD controller with a separate module to perform the timing for the commons and segments, vs. using one of the timers (BASIC TIMER 1) to generate timing for the commons and segments for the MSP430F449 Internal adjustable resistor allow contrast control without external components, vs. the need for external components to allow contrast control for the MSP430F449 Internal voltage-divider resistors eliminate external components, vs. the need for external voltage-divider resistors for the MSP430F449 Separate modules for SPI and USART, so both peripherals can be utilized, vs. multiplexed USART and SPI for the MSP430F449 Separate I/O supply for optimum flexibility, vs. separate I/O supply for the MSP430F449 |
| MSP430F435 Buy | MAXQ2000-RAX Buy | Texas Instruments | Benefits of the MSP430F435 over the MAXQ2000-RAX | MSP430F435 has brownout detect and SVS MSP430F435 offers comparator and ADC MSP430F435 has 160-segment display vs. 100/132 segments for MAXQ part MSP430F435 has 0.1mA stop mode vs. a 0.7mA stop mode for MAXQ |
| MSP430F436 Buy | MAXQ2000-RAX Buy | Texas Instruments | Benefits of the MSP430F436 over the MAXQ2000-RAX | MSP430F436 has brownout detect and SVS MSP430F436 offers comparator and ADC MSP430F436 has 160-segment display vs. 100/132 segments for MAXQ part MSP430F436 has 0.1mA stop mode vs. a 0.7mA stop mode for MAXQ |
| MSP430F437 Buy | MAXQ2000-RAX Buy | Texas Instruments | Benefits of the MSP430F437 over the MAXQ2000-RAX | MSP430F437 has brownout detect and SVS MSP430F437 offers comparator and ADC MSP430F437 has 160-segment display vs. 100/132 segments for MAXQ part MSP430F437 has 0.1mA stop mode vs. a 0.7mA stop mode for MAXQ |
| MSP430F447 Buy | MAXQ2000-RAX Buy | Texas Instruments | Benefits of the MSP430F447 over the MAXQ2000-RAX | MSP430F447 has brownout detect and SVS MSP430F447 offers comparator and ADC MSP430F447 has 160-segment display vs. 100/132 segments for MAXQ part MSP430F447 has 0.1mA stop mode vs. a 0.7mA stop mode for MAXQ |