M30262EDS Search Results

REU05B0032-0100Z

Contextual Info: APPLICATION NOTE M16C/26 Using the A-D Converter in Single Shot Mode 1.0 Abstract The following document outlines the steps necessary to setup, perform and read a single conversion using the onboard analog to digital converter ADC of the M16C/26. The ADC is useful in measuring output voltages of

8bit pwm schematic

Abstract: MSV30262-SKP
Contextual Info: APPLICATION NOTE M16C/26 Using The M16C/26 Timer in PWM Mode 1.0 Abstract PWM or Pulse Width Modulation is useful in DC motor control, actuator control, synthesized analog output, piezo transducers, etc. PWM produces a signal of typically fixed frequency and vary the width of the pulse to control

MSV-Mini26-SKP

Abstract: MDECE30262
Contextual Info: APPLICATION NOTE M16C/26 Using the A-D Converter In Repeat Sweep Mode 0 1.0 Abstract The following document outlines the steps necessary to setup and perform analog to digital conversions of the M16C/26 using repeat sweep mode 0. The ADC is useful in measuring output voltages of sensors such as

Contextual Info: APPLICATION NOTE M16C/26 Using EW1 Mode for Flash Programming 1.0 Abstract The following article introduces and shows how to use the EW1 mode of the CPU Rewrite feature on the M16C/26 M30262 Flash microcontroller (MCU). The CPU Rewrite feature allows erasing and programming the

Contextual Info: APPLICATION NOTE M16C/26 Using the A-D Converter In Repeat Sweep Mode 1 1.0 Abstract The following document outlines the steps necessary to setup and perform analog to digital conversions of the M16C/26 using repeat sweep mode 1. The ADC is useful in measuring output voltages of sensors such as

MSV-Mini26-SKP

Contextual Info: APPLICATION NOTE M16C/26 Using the A-D Converter In Single Sweep Mode 1.0 Abstract The following document outlines the steps necessary to setup, perform and read a single sweep conversion using the onboard analog to digital converter ADC of the M16C. The ADC is useful in measuring output

M30262eds

Contextual Info: APPLICATION NOTE M16C/26 Measuring Computation Time of a Function Call 1.0 Abstract The following article discusses a technique for measuring computation time spent during a function call, which can be in C or Assembly, from a main C program for the M16C/26 MCU. The method for calling assembly

ADXL210EB

Abstract: ADXL210 MSV30262-SKP
Contextual Info: APPLICATION NOTE M16C/26 Using Timer B for Pulse Period/Width Measurements 1.0 Abstract The following article introduces and shows how to use Timer B of the M16C/26 M30262 Flash microcontroller (MCU) for pulse period/width measurements. A sample program written for the MSV30262-SKP, with an

NC30

Contextual Info: APPLICATION NOTE M16C/26 Writing Interrupt Handlers in C 1.0 Abstract This application note describes how to write hardware and software interrupt handlers using NC30 C version 4.XX and earlier compiler for M16C microcontrollers. Interrupt mechanisms are processor (hardware) specific,

DS1822

Abstract: J2-17 mini project using microprocessor to connect TA1S
Contextual Info: APPLICATION NOTE M16C/26 Interfacing with 1-Wire Devices 1.0 Abstract The following article introduces and shows an example of how to interface Renesas’ 16-bit microcontrollers MCU to a 1-wire device. A demo program developed for the Mini 26 board is available.

6020EC

Contextual Info: APPLICATION NOTE M16C/26 Using Timer A in One-Shot Mode 1.0 Abstract One-shot timers are commonly found in designs, as they are useful for debouncing switches, “cleaning” up sensor inputs, etc. Timer A on the M16C/26 can be configured as one-shots, reducing the need for external

UART Program Examples TI m16c

Abstract: MSV30262-SKP UART Program Examples
Contextual Info: APPLICATION NOTE M16C/26 Using UARTs in Asynchronous Mode 1.0 Abstract The following article introduces and describes how to use the UART’s of the M16C/26 M30262 Flash microcontroller (MCU) for asynchronous communications. A sample program, using UART0 in asynchronous

LED p10 circuit board

Abstract: P1070 PD10
Contextual Info: APPLICATION NOTE M16C/26 Using Key Input Interrupts 1.0 Abstract The following article introduces and shows how to setup key input interrupt on the M16C/26 M30262 Flash microcontroller (MCU). A sample program was written for the MSV-Mini26-SKP for evaluation purposes.

MSV30262

Contextual Info: APPLICATION NOTE M16C/26 Using the M16C/26 Timer in Event Counter Mode 1.0 Abstract Event counters are useful in automated packaging lines, tachometers, and mechanical equipment monitoring. The event counters on the M16C/26 can be configured to interrupt on a single event as well, creating additional

Contextual Info: APPLICATION NOTE M16C/26 Using the DMAC with a Forward Source 1.0 Abstract The following article introduces and shows an example of how to use the DMAC function of the M16C/26 with a forward counting source address and fixed destination address. 2.0 Introduction

LED p10 circuit board

Abstract: VC27 REU05B0056-0100Z variable voltage power supply MSV-Mini26-SKP
Contextual Info: APPLICATION NOTE M16C/26 Using Vdet3 Vcc Voltage Monitoring 1.0 Abstract The following article discusses the Vdet3 Vcc voltage monitoring circuits of the M16C/26 MCU chip. A sample program is provided for evaluating the Vdet3 behavior on the MSV30262 SKP board. A variable power supply,

CM06

Abstract: CM07 CM17 Renesas LED Lighting
Contextual Info: APPLICATION NOTE M16C/26 Power Modes 1.0 Abstract The following article discusses the various power modes of the M30262 MCU. A sample program is available that runs on the MSV30262 SKP board for testing and evaluation. Using an ammeter connected to the JP1

NC30 c and assembly

Abstract: sect30 NC30 M30262eds
Contextual Info: APPLICATION NOTE M16C/26 C Compiler Startup Files 1.0 Abstract The following article describes the startup files for the NC30 and KNC30 C compilers. A set of customized startup files is given for the M30262 version of the M16C/26 microcontroller. 2.0 Introduction

6020EC

Contextual Info: APPLICATION NOTE M16C/26 Using Timer A in Pulse Output Mode 1.0 Abstract The following article describes how to use the M16C/26 timer A as square wave generators Pulse Output Mode . 2.0 Introduction The Renesas M30262 is a 16-bit MCU based on the M16C/60 series CPU core. The MCU features include up to

Contextual Info: APPLICATION NOTE M16C/26 Using the DMAC with a Forward Destination 1.0 Abstract The following article introduces and shows an example of how to use the DMAC function of the M16C/26 with a fixed source address and forward counting destination address. 2.0 Introduction

Contextual Info: APPLICATION NOTE M16C/26 Using the Watchdog Timer 1.0 Abstract The following article introduces and shows an example of how to set up and use the watchdog timer on the M16C/26 microcontroller MCU . 2.0 Introduction The Renesas M30262 is a 16-bit MCU based on the M16C/60 series CPU core. The MCU features include up to

Contextual Info: APPLICATION NOTE M16C/26 Implementing Real Time Clock and WAIT Mode 1.0 Abstract The following article describes the implementation of a low-power, real time clock using the sub-clock circuit with a 32.768 kHz crystal and Wait mode of the M16C/26 microcontroller MCU .

pulse period measurement circuit

Abstract: MSV-Mini26-SKP
Contextual Info: APPLICATION NOTE M16C/26 Using Timer B in Pulse Period/Width Measurement Mode 1.0 Abstract Measuring the frequency 1/period or the pulse width of an input signal is useful in applications such as tachometers, DC motor control, power usage calculations, etc. The following article describes how use timers B

Contextual Info: APPLICATION NOTE M16C/26 Programming Flash Memory via Flash-Over-USB 1.0 Abstract The following article describes using a synchronous serial port and the FoUSB Flash-over-USB™ Programmer application to program the user flash memory of the M16C/26 series of microcontrollers. This is referred to in the