PSoC 3 / PSoC 5 101: Architecture Overview Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 1 Section Objectives Objectives, you will: • Understand the high-level architecture of PSoC 3 / PSoC 5 • Understand the CPU, Digital, Analog & Programmable Routing / Interconnect Subsystems Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 2 PSoC 3 / PSoC 5 Platform Architecture Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 3 CPU Subsystem ARM Cortex-M3 • Industry’s leading embedded CPU company • Broad support for middleware and applications • Up to 80 MHz; 100 DMIPS • Enhanced v7 ARM architecture: • Thumb2 Instruction Set • 16- and 32-bit Instructions (no mode switching) • 32-bit ALU; Hardware multiply and divide • Single cycle 3-stage pipeline; Harvard architecture 8051 • Broad base of existing code and support • Up to 67 MHz; 33 MIPS • Single cycle instruction execution Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 4 CPU Subsystem High Performance Memory • Flash memory with ECC • High ratio of SRAM to flash • EEPROM Powerful DMA Engine • 24-Channel Direct Memory Access • Access to all Digital and Analog Peripherals • CPU and DMA simultaneous access to independent SRAM blocks On-Chip Debug and Trace • Industry standard JTAG/SWD (Serial Wire Debug) • On chip trace • NO MORE ICE Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 5 CPU Subsystem Clocking System • Many Clock Sources • Internal Main Oscillator • External clock crystal input • External clock oscillator inputs • Clock doubler output • Internal low speed oscillator • External 32 kHZ crystal input • Dedicated 48 MHz USB clock • PLL output • 16-bit Clock Dividers • 8 Digital • 4 Analog • PSoC Creator Configuration Wizard • PSoC Creator auto-derive clocking source/dividers Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 6 CPU Subsystem Dedicated Communication Peripherals • Full Speed USB device • 8 bidirectional data end points + 1 control end point • No external crystal required • Drivers in PSoC Creator for HID class devices • Full CAN 2.0b • 16 RX buffers and 8 TX buffers • I2C master or slave • Data rate up to 400 kbps • Additional I2C slaves may be implemented in UDB array • New peripherals will be added as family members are added to the platform: Ethernet, HS USB, USB Host… Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 7 CPU Subsystem Power Management • Industry’s Widest Operating Voltage • 0.5V to 5.5V with full analog/digital capability • High Performance at 0.5V • PSoC 3 @ 67 MHz; PSoC 5 @ 72 MHz • 3 Power Modes (Active, Sleep and Hibernate) Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 8 Designed for Low Power/Low Voltage On-board DMA Controller Highly configurable clock tree Direct memory transfer between peripherals offloads CPU operation, lowering power consumption Flexible, automated clock gating. Universal Digital Blocks Implement features in hardware that reduce CPU processing requirements, lowering power consumption Cached Operations Execution from flash memory is improved by caching instructions (PSoC 5 only) Precise CPU frequencies PLL allows 4,032 different frequencies; tunable power consumption Integrated Analog, Digital and Communication Peripherals Reduce external component counts and lower overall system power consumption Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 9 Low Power Modes Power mode Current (PSoC 3) Current (PSoC 5) Active 1.2 mA @ 6MHz 2 mA @ 6MHz Digital Code resources execution available Yes All Sleep 1 uA 2 uA No I2C Hibernate 200 nA 300 nA No None Analog resources available Clock sources available Wakeup sources Reset sources All All N/A All IO, I2C, RTC, Low Speed and Comparator 32 kHz Osc sleep timer, comparator None None IO XRES, LVD, WDR XRES, LVD Power Management Enabled in PSoC Creator • Provides easy to use control APIs for quick power management • Allows code and register manipulation for in-depth control Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 10 Digital Subsystem Universal Digital Block Array (UDBs) • Flexibility of a PLD integrated with a CPU • Provides hardware capability to implement components from a rich library of pre-built, documented, and characterized components in PSoC Creator • • • PSoC Creator will synthesize, place, and route components automatically. 32-bit PWM GP Logic 16-bit PWM GP Logic UART #3 GP Logic Fine configuration granularity enables high silicon utilization DSI routing mesh allows any function in the UDBs to communicate with any other on-chip function/GPIO pin with 8- to 32-bit data buses UART #1 GP Logic UART #2 LCD Segment Drive GP Logic I2C Slave 16-bit Shift Reg. GP Logic Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H SPI Master 11 Digital Subsystem Optimized 16-bit Timer/Counter/PWM Blocks • • • • Provides nearly all of the features of a UDB based timer, counter, or PWM PSoC Creator provides easy access to these flexible blocks Each block may be configured as either a full featured 16-bit Timer, Counter, or PWM Programmable options • • • Clock, enable, reset, capture, kill from any pin or digital signal on chip Independent control of terminal count, interrupt, compare, reset, enable, capture, and kill synchronization Plus • • Configurable to measure pulse widths or periods Buffered PWM with dead band and kill Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 12 Analog Subsystem Configurable Analog System • • • • • • • • • • Flexible Routing: All GPIO are Analog Input/Output +/- 0.1% Internal Reference Voltage Delta-Sigma ADC: Up to 20-bit resolution • 16-bit at 48 ksps or 12-bit at 192 ksps SAR ADC: 12-bit at 1 Msps DACs: 8 – 10-bit resolution, current and voltage mode Low Power Comparators Opamps (25 mA output buffers) Programmable Analog Blocks • Configurable PGA (up to x50), Mixer, Trans-Impedance Amplifier, Sample and Hold Digital Filter Block: Implement HW IIR and FIR filters CapSense Touch Sensing enabled Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 13 Programmable Routing/Interconnect Input / Output System • Three types of I/O • GPIO, SIO, USBIO • Any GPIO to any peripheral routing • Wakeup on analog, digital or I2C match • Programmable slew rate reduces power and noise • 8 different configurable drive modes • Programmable input threshold capability for SIO • Auto and custom/lock-able routing in PSoC Creator Up to 4 separate I/O voltage domains • Interface with multiple devices using one PSoC 3 / PSoC 5 device Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 14 PSoC 3 / PSoC 5 Platform Architecture Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 15 Review You should now: • Understand the high-level architecture of PSoC 3 / PSoC 5 • Understand the CPU, Digital, Analog & Programmable Routing / Interconnect Subsystems Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 16 Lab 101: My First PSoC 3 Digital Design Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 17 Lab Objectives Objectives: • Blink an LED on the PSoC First Touch Kit • Experience the PSoC Creator Design Flow Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 18 Step 1: Start PSoC Creator Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 19 Step 2: Create a New Project Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 20 Step 3: Place/Configure Digital Pin Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 21 Step 3: Place/Configure Digital Pin Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 22 Step 4: Configure PSoC I/O Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 23 Step 5: Add main.c Code Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 24 Step 5: Add main.c Code Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 25 Step 6: Build Project Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 26 Step 7: Program/Debug Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 27 Step 8: Debug Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 28 PSoC 3 / PSoC 5 101: PSoC Creator Design Flow Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 29 Section Objectives Objectives, you will be able to: • Follow the PSoC Creator Design Flow and develop projects • Find and use the tools available within the software IDE • Compile, build and program PSoC 3 / PSoC 5 applications • Debug PSoC 3 / PSoC 5 applications Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 30 PSoC Creator Design Flow Configure • • • • Start a new project Place components Configure components Connect components Develop • Build hardware design and generate component APIs • Write application code utilizing component APIs • Compile, build and program Debug • Perform in-circuit debug using PSoC Creator Reuse • Capture working hardware/software designs as your own components for future use Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 31 Open PSoC Creator Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 32 PSoC Creator Software Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 33 Create a new project Select the platform Name the design Select the device* Select the sheet template* * Optional steps Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 34 PSoC Creator Design Canvas Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 35 Component Catalog Catalog Folders Analog ADC Amplifier DAC Digital Registers Functions Logic Communication Display System Catalog Preview Datasheet access Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 36 Adding Components to a Design Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 37 Pins, Logic and Clock Components Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 38 Component Configuration Double-click to open component configuration dialogs Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 39 Component Data Sheets Contents: • • • • • • • • • Features General description of component When to use component Input/Output connections Parameters and setup Application Programming Interface Sample firmware source code Functional description DC and AC electrical characteristics Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 40 Design-Wide Resource Manager (.cydwr) Clocks Interrupts • Set priority and vector DMA • Manage DMA channels System • Debug, boot parameters, sleep mode API generation, etc. Directives • Over-ride placement defaults Pins • Map I/O to physical pins and ports • Over-ride default selections Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 41 Interrupts Priority may be changed Defaults to 7 (lowest priority) Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 42 DMA Priority may be changed Defaults to 2 (0 & 1 can consume 100% of bandwidth) Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 43 System System settings Debug settings Voltage Configuration Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 44 System Clocking Tree Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 45 Clock Configurations Clocks are allocated to slots in the clock tree • 8 digital, 4 analog Clocks have software APIs Reuse existing clocks to preserve resources Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 46 Pin Editor Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 47 Connecting Components Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 48 Build Hardware Design Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 49 Build Process Generate a Configuration • • • • • • • • • • Design Elaboration Netlisting Verilog Logic Synthesis Technology Mapping Analog Place and Route Digital Packing Digital Placement Digital Routing <…there’s more…> Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 50 Build Process API Generation Compilation Configuration Generation Configuration Verification Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 51 Development Files Core Cypress Libraries (CyLib) Registers, macros, types (cytypes) Component addressing (cyfitter) Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 52 Supported Compilers Free Bundled compiler options PSoC 3: Cypress-Edition Keil™ CA51 Compiler Kit PSoC 5: GNU/CodeSourcery Sourcery G++™ Lite No code size restrictions, not board-locked, no time limit Fully integrated including full debugging support GNU Upgrade, more optimization/compiler-support options PSoC 3: Keil CA51™ Compiler Kit PSoC 5: Keil RealView® Microcontroller Development Kit Higher levels of optimization Direct support from the compiler vendor Upgrade Compiler Pricing Set and managed by our 3rd party partner, Keil Already own these compilers? No need to buy another license! Keil CA51 Compiler Kit ~$2,000 Keil RealView MDK ~$3,000-5,000 Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 53 Integrated Debugger JTAG and SWD connection • All devices support debug • MiniProg3 programmer / debugger Control execution with menus, buttons and keys Full set of debug windows • Locals, register, call stack, watch (4), memory (4) • C source and assembler • Components Set breakpoints in Source Editor Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 54 Debugger Windows Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 55 MiniProg3 • • • • Program PSoC 1 devices Program/Debug PSoC 3 / PSoC 5 devices Standard 50mil connector nTRST/XRES pin is used as the device reset (XRES) by default • nTRST is JTAG specific and rarely used 2x5 50mil ISSP/JTAG/SWD/ SWV/TracePort ribbon cable and connector ISSP connector Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 56 PSoC Development Kit (CY8CKIT-001) • Supports all PSoC architectures via processor modules • Integrated support of all required and optional chip connections • MiniProg3 should not supply power to PSoC Development Kit Independent digital, analog and IO supply rails (current measurement 3.3V, 5.0V and adjustable 1.8V–5.0V regulators supported) RS-232 Three expansion ports support 28 IO each + 45 IO USB for target PSoC Processor Modules RF Module Radio header 1 Pot, 2 buttons, 4 LEDs, 2x16 LCD CapSense Slider & Buttons Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 57 Review You should now be able to: • Follow the PSoC Creator Design Flow and develop projects • Find and use the tools available within the software IDE • Compile, build and program PSoC 3 / PSoC 5 applications • Debug PSoC 3 / PSoC 5 applications Introduction to PSoC 3 / PSoC 5 Workshop – Rev *H 58
