cy8c20436 Cypress Semiconductor Corporation., cy8c20436 Datasheet - Page 6

cy8c20436

Manufacturer Part Number

cy8c20436

Description

Capsense Applications Ic Mcu 8k Flash 1k Sram 24qfn

Manufacturer

Cypress Semiconductor Corporation.

Datasheet

1.CY8C20436.pdf (39 pages)

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Designing with PSoC Designer

The development process for the PSoC device differs from that

of a traditional fixed function microprocessor. The configurable

analog and digital hardware blocks give the PSoC architecture a

unique flexibility that pays dividends in managing specification

change during development and by lowering inventory costs.

These configurable resources, called PSoC Blocks, have the

ability to implement a wide variety of user-selectable functions.

The PSoC development process can be summarized in the

following four steps:

Select Components

Both the system-level and chip-level views provide a library of

pre-built, pre-tested hardware peripheral components. In the

system-level view these components are called “drivers” and

correspond to inputs (a thermistor, for example), outputs (a

brushless DC fan, for example), communication interfaces (I

bus, for example), and the logic to control how they interact with

one another (called valuators).

In the chip-level view the components are called “user modules.”

User modules make selecting and implementing peripheral

devices simple, and come in analog, digital, and programmable

system-on-chip varieties.

Configure Components

Each of the components you select establishes the basic register

settings that implement the selected function. They also provide

parameters and properties that allow you to tailor their precise

configuration to your particular application. For example, a Pulse

Width Modulator (PWM) User Module configures one or more

digital PSoC blocks, one for each 8 bits of resolution. The user

module parameters permit you to establish the pulse width and

duty cycle. Configure the parameters and properties to corre-

spond to your chosen application. Enter values directly or by

selecting values from drop-down menus.

Both the system-level drivers and chip-level user modules are

documented in data sheets that are viewed directly in PSoC

Designer. These data sheets explain the internal operation of the

component and provide performance specifications. Each data

sheet describes the use of each user module parameter or driver

property, and other information you may need to successfully

implement your design.

Document Number: 001-12696 Rev. *E

1. Select Components

2. Configure Components

3. Organize and Connect

4. Generate, Verify, and Debug

C-

Organize and Connect

You build signal chains at the chip level by interconnecting user

modules to each other and the I/O pins, or connect system-level

inputs, outputs, and communication interfaces to each other with

valuator functions.

In the system-level view selecting a potentiometer driver to

control a variable speed fan driver and setting up the valuators

to control the fan speed based on input from the pot selects,

places, routes, and configures a programmable gain amplifier

(PGA) to buffer the input from the potentiometer, an analog-to-

digital converter (ADC) to convert the potentiometer’s output to

a digital signal, and a PWM to control the fan.

In the chip-level view, you perform the selection, configuration,

and routing so that you have complete control over the use of all

on-chip resources.

Generate, Verify, and Debug

When you are ready to test the hardware configuration or move

on to developing code for the project, you perform the “Generate

Configuration Files” step. This causes PSoC Designer to

generate source code that automatically configures the device to

your specification and provides the software for the system.

Both system-level and chip-level designs generate software

based on your design. The chip-level design provides application

programming interfaces (APIs) with high-level functions to

control and respond to hardware events at run time and interrupt

service routines that you can adapt as needed. The system-level

design also generates a C main() program that completely

controls the chosen application and contains placeholders for

custom code at strategic positions allowing you to further refine

the software without disrupting the generated code.

A complete code development environment allows you to

develop and customize your applications in C, assembly

language, or both.

The last step in the development process takes place inside

PSoC Designer’s Debugger (access by clicking the Connect

icon). PSoC Designer downloads the HEX image to the ICE

where it runs at full speed. PSoC Designer debugging capabil-

ities rival those of systems costing many times more. In addition

to traditional single-step, run-to-breakpoint and watch-variable

features, the debug interface provides a large trace buffer and

allows you to define complex breakpoint events that include

monitoring address and data bus values, memory locations and

external signals.

CY8C20X36/46/66/96

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