1. PSoC® 4 Programmable System-on-Chip
PSoC 4: The World’s Most Flexible, Lowest-Power ARM® Cortex™-M0 One-Chip Solution Is $1

2. PSoC 4 Awards
The editors of Semiconductor Industry News gave PSoC 4 their 19th annual “Semiconductor of the Year” award
“PSoC 4 is truly a revolutionary device that symbolizes a new era of flexibility in design.” - Wataru Izumiya, President of Sangyo Times, Publisher of Semiconductor Industry News
The editors of Embedded Computing Design magazine selected PSoC 4 as the “Most Innovative Product” of 2013
“We selected the PSoC 4 architecture as an Editor’s Choice Product for its combination of flexible analog and digital resources with capacitive touch technology and the 32-bit ARM Cortex-M0 core.” - Warren Webb, Editorial Director at Embedded Computing Design

3. PSoC Terms PSoC Programmable Analog Block Continuous Time Block (CTB)
PSoC is the world’s only programmable embedded system-on-chip integrating an MCU core, Programmable Analog Blocks, Programmable Digital Blocks, Programmable Interconnect and Routing1 and CapSense
Programmable Analog Block
A hardware block that is configured using PSoC Components2 to create Analog Front Ends (AFEs), signal conditioning circuits with opamps and filters
Includes Continuous Time Blocks, analog-to-digital converters (ADCs) and digital-to-analog converters (DACs)
Continuous Time Block (CTB)
A Programmable Analog Block that is used to implement continuous time analog circuits such as opamps and programmable gain amplifiers (PGAs)
Programmable Digital Block
A hardware block that is configured using PSoC Components2 to implement custom digital peripherals and glue logic
Includes Universal Digital Blocks, Serial Communication Blocks (SCBs) and TCPWMs3
Universal Digital Block (UDB)
A PSoC Programmable Digital Block that contains: two programmable logic devices (PLDs), one programmable data path with an arithmetic logic unit (ALU), one status register and one control register
Configured in PSoC Creator4 using PSoC Components2, or the graphical state machine editor or Verilog code
Serial Communication Block (SCB)
A PSoC Programmable Digital Block that is configurable as a UART, SPI or I2C interface
Illustration of a PSoC Device Being Flexibly
Configured by Plugging in PSoC Components2
Signal conditioning and measurement, control
Illustration of a “Lego-like” PSoC Devices … breadboard
PSoC is the world's only programmable embedded system-on-chip integrating high-performance analog, PLD-based programmable logic, memory and a microcontroller on a single chip.
At a fundamental level PSoC is not EASY! It is new, and therefore HARD! So it will not resonate with the audience even if we have “made it easy”
Fix footnotes for the Tabs ask JFMD
With the above definitions we must always say custom digital peripherals and NOT custom digital interfaces!!!! To keep the brand consistent research?
IO or Io
Ios or IOs
A Programmable Analog Block used to implement opamps, PGAs, comparators, etc (dropped etc)
PSoC 4200 NPI
1 Connects the Programmable Analog Blocks, Programmable Digital Blocks and I/Os Timer, counter, pulse-width modulator (PWM)
2 Free embedded ICs represented by an icon in PSoC Creator software PSoC 3, PSoC 4 and PSoC 5 Integrated Design Environment (IDE) software that installs on your PC

4. PSoC Terms Timer, Counter, PWM (TCPWM) Block CapSense®
A PSoC Programmable Digital Block that is configurable as a 16-bit timer, counter, PWM or quadrature decoder
CapSense®
Cypress’s third-generation touch-sensing user interface solution that “just works” in noisy environments and in the presence of water
The industry’s No. 1 solution in sales by 4x over No. 2
Programmable Interconnect and Routing
Connects the Programmable Analog Blocks, Programmable Digital Blocks and I/Os
Enables flexible connections of internal analog and digital signals to internal buses and external I/Os
PSoC Creator™
PSoC 3, PSoC 4 and PSoC 5 Integrated Design Environment (IDE)
Software that installs on your PC that allows: Concurrent hardware and firmware design of PSoC systems, or PSoC hardware design followed by export to popular IDEs
Components
Free embedded ICs represented by an icon in PSoC Creator software
Used to integrate multiple ICs and system interfaces into one PSoC
Dragged and dropped as icons to design systems in PSoC Creator
Component Configuration Tools
Simple graphical user interfaces in PSoC Creator embedded in each Component
Used to customize Component parameters
100+ Components available
CapSense is used to create touch buttons and sliders
Component Icon
Component Configuration Tool

5. PSoC Terms PSoC 4 PSoC 4 “Base-Series” PSoC 4 M-Series PSoC 4 L-Series
A PSoC with an ARM® Cortex®-M0 MCU
PSoC 4 “Base-Series”
A PSoC 4 with up to 32KB flash, 36 I/Os, 8 Programmable Analog Blocks and 10 Programmable Digital Blocks
The original PSoC 4 family introduced in 2013 with over 2 million units in the field
PSoC 4 M-Series
A PSoC 4 with up to 128KB flash, 55 I/Os, DMA1, 2x CAN2, Programmable Analog Blocks and 16 Programmable Digital Blocks
PSoC 4 L-Series
A PSoC 4 with up to 256KB flash, 98 I/Os, DMA1, 2x CAN2, USB, Programmable Analog Blocks and 20 Programmable Digital Blocks
PSoC 4 BLE
A PSoC 4 with up to 256KB flash, 36 I/Os, Programmable Analog Blocks, 10 Programmable Digital Blocks and an integrated BLE4 radio with a royalty-free BLE4 Protocol Stack
100+ Components available
IDAC3 Component used to create custom Analog Front Ends
Component Icon
Component Configuration Tool
1 Direct Memory Access
2 Controller Area Network
3 Current-output digital-to-analog converter
4 Bluetooth Low Energy wireless solution designed for short-range, low-power wireless applications

6. Design Problems Engineers Face
1. Proprietary 8-bit and 16-bit MCUs are being broadly replaced by 32-bit ARM Cortex-M cores
8-Bit MCUs Now Look Like This
Both faster and lower in power
8-bit and 16-bit legacy MCUs include the Microchip PIC10/12/16/18/24, TI MSP430,
Atmel AVR8, Freescale S08/S12 and Renesas H8S
While 32-Bit MCUs Look Like This
(e.g., PIC16, AVR8, MSP430, H8S)
Tesla, with touch controls by Cypress

7. Design Problems Engineers Face
2. Analog front ends (AFEs) and digital glue logic around MCUs are difficult to design and debug
Device Selection
Analog Design and Simulation
Digital Design and Modeling
Firmware Development and Programming
Prototyping

8. Design Problems Engineers Face
3. Reliable touch-sensing solutions are difficult to design
Wet Environments
Noisy Environments
Multi-Touch Capability
Standards Compliance

9. Design Problems Engineers Face
4. It is difficult to achieve the lowest power at the required performance level
Battery Drain Is a Big Problem
Optimizing Performance in a Low-Power System Is Difficult and Requires the Careful Use of Low-Power Modes2
Deep-Sleep
Sleep
Active
System Current (mA)
Average Current (mA)
ARM standard power modes:
Active = MCU on + all peripherals on
Sleep = MCU off + all peripherals on
Deep-Sleep = MCU off + select peripherals on1
1 Select peripherals enabled in the Deep-Sleep low-power mode greatly varies by ARM vendor 2 Graph is not to scale, in order to illustrate the differences in ARM standard power modes

10. PSoC 4 Solves These Problems
1. PSoC 4 has a 32-bit ARM Cortex-M0 system with programmable analog and digital that quickly upgrades legacy 8-bit and 16-bit systems 2. PSoC Creator™ IDE simplifies the design and debug of analog front ends and digital glue logic 3. PSoC Creator CapSense Component simplifies designs for CapSense, the No. 1 touch-sensing solution 4. The PSoC Creator IDE simplifies power optimization using PSoC 4 low-power modes For $1 you can buy the world’s most flexible, lowest-power ARM Cortex-M0 one-chip solution
The PSoC “Lego” image illustrates how engineers can construct their own systems simply, using PSoC Creator and PSoC Components

11. PSoC Portfolio PSoC 1 Cypress M8C PSoC 3 Cypress 8051 PSoC 4
ARM® Cortex™-M0
PSoC 5LP
ARM Cortex-M3
PDIP, SOIC, SSOP, QFN, TQFP, CSP
SSOP, QFN, TQFP, CSP
SSOP, QFN, TQFP
Standard
Integrated Functions
Complete Solutions
Proprietary
Certified Support for
MFi Connectivity and MFi Music
Single-Shunt FOC Compressor Motor, Sensorless BLDC Motor (Est. Q1 2014)
Integrated Power Supervisor Functions: Fault Detect, Trim&Margin, Voltage Seq
LED Lighting with PrISM™ 1 Technology
Integrated Power Supervisor Functions: Fault Detect, Trim&Margin, Voltage Seq.
Closed-Loop Micro-Stepper (Est. Q2 2014)
Optical Module Support with MDIO
Home Appliance: CapSense®, LED Drive, Segment LCD
Home Appliance: CapSense, LED Drive, Segment LCD
Home Appliance: CapSense, LED Drive, Segment LCD
Home Appliance: CapSense, LED Drive, Graphic LCD
PowerPSoC® (Current Sense Amplifiers, Hysteretic Controllers, FETs, DMX5122)
Precision Analog Sensing (e.g., Temp.) Custom Analog ASIC Replacement
Digital and Analog Sensor Hub (e.g., Temp., Pressure, Accelerometer, Light)
Precision Analog Sensing (e.g., Temp.) Custom analog ASIC replacement
Integrated Thermistor
RTD, Thermistor and Thermocouple
RTD, Thermistor and Thermocouple
RTD, Thermistor and Thermocouple
Integrated Fan Control
HW I2C Mux, Quadrature Decoder
Pseudo Random Pulse Modulator
Quadrature Decoder
Pseudo Random Pulse Modulator
HW I2C Mux, Quadrature Decoder
Pseudo Random Pulse Modulator
Gas Sensor Analog Front End
DSP 24-bit MAC and ALU with DMA
I2CUARTSPI Bridge Integrated Fan Controller
DSP 24-bit MAC and ALU with DMA
CY Patented CSD™ CapSense with SmartSense™ Auto-tuning
CY Patented CSD CapSense with SmartSense Auto-tuning
CY Patented CSD CapSense with SmartSense Auto-tuning
CY Patented CSD CapSense with SmartSense Auto-tuning
VDAC3
Differential GPIO
IDAC4, VDAC3
IDAC4
Opamp
Differential GPIO
IDAC4, VDAC3
EEPROM
ECC Memory
Segment LCD
LP Comparator
EEPROM
ECC Memory
RTC (ext. 32kHz)
EEPROM
Opamp
Segment LCD
EEPROM
Opamp
Segment LCD
10-bit SAR ADC
14-bit  ADC
20-bit  ADC
0.1% VREF
LIN Slave
12-bit SAR ADC
1Msps
Ultra-Low Power 20-nA STOP
20-bit  ADC
0.1% VREF
12-bit SAR ADC
1Msps
Custom Analog: Switch Cap.&Cont. Time
(e.g., Mixer, PGA, TIA, Filter, CMP)
Custom Analog: Switch Capacitor
(e.g., Mixer, PGA, TIA, Filter, CMP)
Custom Analog: Switch Capacitor
(e.g., Mixer, PGA, TIA, Filter, CMP)
USB/UART/SPI/I2C/IrDA
USB/CAN/UART/SPI/I2C/I2S
UART/SPI/I2C/I2S
USB/CAN/UART/SPI/I2C/I2S
Timers/Counters/PWMs
Timers/Counters/PWMs
Timers/Counters/PWMs
Timers/Counters/PWMs
External Bus Interface
1 CY patented Precise Intensity Signal Modulation 2 Digital MultipleX communication protocol 3 Voltage digital-to-analog converter 4 Current digital-to-analog converter

12. PSoC 4 Device Families All families include: Performance
ARM® Cortex™-M0 CPU
CapSense®
Timers/counters/PWMs
Serial-Wire Debug (SWD)
Performance Analog
CY8C46xx
Programmable Analog
CY8C44xx
Programmable
Digital
CY8C42xx
Intelligent
Analog
CY8C41xx
Production
Development/Concept
PSoC
MCU
CY8C40xx
Integration
Features
CY8C40xx
CY8C41xx
CY8C42xx
CY8C44xx
CY8C46xx
CPU speed
16 MHz
24 MHz
48 MHz
Flash/SRAM
8K-16K/2K
16K-32K/4K
32K-64K/8K-16K
64K-128K/16K-32K
Comparators 1
2-4 4
In development
Opamps
0-2
1-2
Programmable Digital Blocks
Programmable Analog Blocks
ADC
1x12-bit SAR (800 ksps)
1x12-bit SAR (1 Msps)
Configurable I2C/SPI/UART
1 (I2C only)
GPIOs/Packages
20/8-SOIC, 16-QFN,
24-QFN
36/28-SSOP, 40-QFN, 44-TQFP

13. PSoC 4200 Architecture PSoC 4 One-Chip Solution Interrupt Controller
Flash (16 To 32 KB)
Clocking System
SRAM
(4 KB)
Power Mgmt.
SWD
CortexTM-M0
48 MHz
MCU Subsystem
Advanced High-Performance Bus (AHB)
UDB
TCPWM
SCB
Segment LCD Drive
Programmable Digital Blocks
12-bit SAR ADC
1 Msps
Programmable Analog Blocks
CMP
CTBm
Op amp
CapSense
8-bit IDAC
7-bit IDAC
Programmable Interconnect and Routing
GPIO Port
Programmable I/O Subsystem

14. PSoC 4 System Design in PSoC Creator
CapSense Starter Project on Six Windows in the PSoC Creator IDE
Explore the library of 60+ Components
Complete your hardware system design by dragging and dropping component icons
Configure Components using a component-specific configuration tool
Access component datasheets directly from the configuration tool for technical specification
Codesign your application firmware and hardware using the PSoC Creator IDE C-based compiler
Review the Components’ application note for usage guidelines
CapSense Design Guide
CapSense Component Datasheet
CapSense Component Configuration Tool

15. PSoC 4: 32-bit Performance for $1
PSoC 4 has a 32-bit ARM Cortex-M0 system that upgrades legacy 8-bit and 16-bit systems
The ARM Cortex-M0 processes instructions three times faster than the MSP430 and 45 times faster than the PIC18
Faster instruction processing enables the ARM Cortex-M0 to spend more time in sleep modes, reducing system power consumption
PSoC 4 also has programmable analog and digital blocks that integrate AFEs and digital glue logic
8-bit MCU
16-bit MCU
32-bit MCU
MCU Performance Comparison Using the Dhrystone Benchmark1
DMIPS per MHz2
PIC18
Microchip
8051
Intel
MSP430 TI
S12
Freescale
H8S/2600
Renesas
PIC24
ARM
Cortex-M0
1.00
0.75
0.50
0.25
0.00
1 Dhrystone is a computing benchmark program used to calculate the relative performance of an MCU
2 DMIPS = Dhrystone million instructions per second; data referenced from The Definitive Guide to the ARM Cortex-M0, ISBN:

16. PSoC 4 Programmable Analog
PSoC Creator simplifies analog front end design and saves time on debugging with:
Analog Components that are dragged and dropped as icons to create custom analog front ends
Starter projects, such as the ADC Differential Preamplifier and Dynamic Gain Switching Opamp, that accelerate development
Component Configuration Tools that simplify parameter configurations with a graphical user interface
PSoC 4 integrates analog front end designs to save BOM cost by delivering:
Discrete analog performance with a differential 1-Msps, 12-bit SAR ADC, and two high-performance opamps with ±1-mV-input offset voltage and 6-MHz gain bandwidth
A 1- to 36-channel analog multiplexer (AMUX) that can be flexibly configured to create custom AFE designs
A 5-V operating voltage that provides over 50% more analog input signal range vs. 3.3 V
PSoC 4 Programmable Analog Blocks
12-bit SAR ADC
1 Msps
Programmable Analog Blocks
CTBm
Op amp
CTBm = Continuous Time Block-mini
CMP = comparator
Opamp Component with Configuration Tool in PSoC Creator
The opamp graphical Component Configuration Tool simplifies parameter configuration
CapSense
8-bit IDAC
7-bit IDAC
CMP
CMP

17. Programmable Analog Starter Project: Differential Preamplifier AFE
MCU + Opamps
Opamp + ADC SAR Components
PSoC 4 Pioneer Kit with Arduino Shield
Arduino analog shield
Opamps
PSoC 4
MCU
Old, three-chip solution
New, one-chip solution
The integration of an MCU and two discrete opamps in your differential preamplifier analog front end…
Is simplified using the PSoC Creator ADC Differential Preamplifier starter project and PSoC Components…
And prototyped quickly using the PSoC 4 Pioneer Kit and an optional Arduino™ analog shield to create a PSoC one-chip solution.
To get started, you should:
Buy the $25 PSoC 4 Pioneer Kit (CY8CKIT-042)
Install PSoC Creator software on your PC
Use the Getting Started with PSoC 4 Application Note
Use the ADC Differential Preamplifier starter project in PSoC Creator

18. Programmable Analog Starter Project: Dynamic Gain Switching Opamp AFE
MCU + Dual Opamp + AMUX
Opamp + AMUX + ADC SAR Components
PSoC 4 Pioneer Kit with Arduino Shield
Dual Opamp
Arduino analog shield
AMUX
PSoC 4
MCU
Old, three-chip solution
New, one-chip solution
The integration of an MCU, two opamps and an AMUX in your dynamic gain switching opamp analog front end…
Is simplified using the PSoC Creator Opamp with Dynamic Gain Switching starter project and PSoC Creator Components…
And prototyped quickly using the PSoC 4 Pioneer Kit and an optional Arduino shield to create a PSoC one-chip solution.
To get started, you should:
Buy the $25 PSoC 4 Pioneer Kit (CY8CKIT-042)
Install PSoC Creator software on your PC
Use the Getting Started with PSoC 4 Application Note
Use the Opamp with Dynamic Gain Switching starter project in PSoC Creator

19. Programmable Analog: Choose Wisely
Tool to Rework Traditional Analog Designs
Tool to Rework PSoC Analog Designs

20. PSoC 4 Programmable Digital
Simplify design and debug with PSoC Creator and integrate glue logic ICs to save time and BOM cost
PSoC Creator Components integrate 60+ digital functions into a one-chip PSoC solution
PSoC Creator digital Components are dragged and dropped as icons to create custom glue logic solutions
PSoC Creator provides Component Configuration Tools to simplify parameter configurations with a graphical user interface
Offload traditional firmware-based CPU tasks to save power and increase reliability
Hardware-based state machines save CPU cycles by replacing firmware
Hardware-based logic provides deterministic monitoring for safety-critical tasks by replacing firmware
Hardware-based logic simplifies software design and ISR handling by replacing “bit-banging” firmware
Reconfigure programmable digital blocks to create multiple functions from the same blocks
Dynamic reconfiguration = changing hardware on the fly
Dynamically reconfigure serial communication blocks (e.g., a UART transfer followed by a SPI transfer in the same block)
Dynamically reconfigure timer/counter/PWM blocks
PSoC 4 Digital Blocks
PSoC Components Integrate Digital Functions
UDB
TCPWM
SCB
PSoC Creator integrates 60+ digital functions with Components, including: logic gates, flip-flops and lookup tables
UDB = Universal Digital Block
TCPWM = Timer/counter/PWM block
SCB = Serial communication block

21. Create Custom Glue Logic Using UDBs
A Universal Digital Block (UDB) is a programmable digital block containing:
Two programmable logic devices (PLDs)
One programmable data path with arithmetic logic unit
Status and control registers
PSoC Creator UDBs simplify the design of custom glue logic solutions using one of three methods:
Digital logic Components, which can be dragged and dropped as icons
The graphical state machine editor
The code editor, which accepts custom Verilog code
1. Use digital logic Components…
3. Or the Verilog code in the
code editor…
To program the UDB.
Clock and Reset Control
Data Path
PLD
12C4
(8 PTs1)
(8 PTs)
Status and Control
PLD Chaining
Data Path Chaining
Digital Routing to the System AHB
2. Or the graphical state machine editor…
Three different design methods to create custom glue logic using UDBs in PSoC Creator
1 Product terms; a product term is a logical conjunction of Boolean inputs

22. PSoC 4 Brings Proven CapSense Technology to the ARM World
Cypress’s reliable CapSense solution is proven in production
Industry’s No. 1 solution in sales by 4x over No. 2
PSoC CapSense buttons “just work” because of rigorous engineering and testing
PSoC Creator CapSense Component simplifies design
The CapSense Component Configuration Tool simplifies button and slider designs
SmartSense Auto-tuning sets, monitors and continuously maintains optimal performance
Touch Buttons: 2003
Water Rejection: 2008
Multi-Touch: 2009
Noise Immunity: 2010
Cypress’s CapSense research and development began with buttons and sliders
CSD and CSA algorithms released, offering improved noise immunity, water rejection and proximity detection
Mutual Cap creates multi-touch feature; improved dual channel CSD provides upgraded scan rate
SmartSense Auto-tuning revolutionizes CapSense design and improves noise immunity
CapSense Component Configuration Tool
The CapSense Component Configuration Tool makes it easy to design buttons, sliders, proximity sensors and touch pads

23. CapSense Starter Project: Low Power Wake-On-Touch Design
Old: MCU + Touch-Sensing Controller
Upgrade: Using the CapSense Component
With Its Configuration Tool
PSoC 4 Pioneer Kit
Touch IC
PSoC 4
MCU
Two-chip solution
CapSense Component with Configuration Tool
One-chip solution
Upgrading an existing two-chip touch-sensing solution with an ARM Cortex-M0 device featuring the industry’s best CapSense hardware and firmware IP…
Is simplified using the PSoC Creator CapSense LCD Low Power starter project and PSoC Creator Components…
And prototyped quickly using the PSoC 4 Pioneer Kit to create a PSoC one-chip solution.
To get started, you should:
Buy the $25 PSoC 4 Pioneer Kit (CY8CKIT-042)
Install PSoC Creator software on your PC
Use the PSoC 4 Design CapSense Design Guide to get started
Use the CapSense LCD Low Power starter project in PSoC Creator

24. Peripherals Available Clock Sources Available
PSoC 4 Low-Power Modes
The PSoC Creator IDE simplifies power optimization using PSoC 4 low-power modes
PSoC 4 has the lowest-leakage process technology, which:
Consumes the lowest current in Stop mode with GPIO state retention
Retains SRAM and UDB state in Hibernate mode
Provides full state retention in Deep Sleep mode with LCD operation
PSoC Creator’s APIs simplify power management by:
Enabling changes between power modes
Controlling the power of individual PSoC Components
Power Mode
Current Consumption
Code Execution
Digital
Peripherals Available
Analog
Peripherals
Available
Clock Sources Available
Wake-Up
Sources
Time
Active
2.2 6 MHz
Yes
All -
Sleep
1.3 mA No
Any interrupt source
Deep-Sleep
1.3 μA
WDT, LCD, I2C/SPI
Comparator,
POR, BOD
32-kHz ILO
Comparator, GPIO, WDT, SCB
25 μs
Hibernate
150 nA
Comparator, GPIO
2 ms
Stop
20 nA
Wake-Up pin, XRES
POR: Power-on-reset BOD: Brownout-detect SCB: Serial communication block WDT: Watchdog timer XRES: External reset
PSoC 4 Current Consumption in Different Power Modes1
Current (mA)
System Current (mA)
Average Current (mA)
Stop
Sleep
Active
Sleep
Deep Sleep
Hibernate
1 Graph is not to scale, in order to illustrate the differences in PSoC 4 low-power modes

25. PSoC 4 Example Application: System Management and Control
Thermal management
Build a closed-loop fan controller that supports up to four independently controlled fans
Integrate ASSPs, MCUs and ADCs
Power management
Sequence up to 17 power rails per PSoC 4 device
Trim and margin up to 12 power rails per PSoC 4 device
Monitor voltages at ±1.5% accuracy
Detect over- and under-voltage fault conditions
Communication bridging
Communicate over serial host interfaces, including I2C, UART, SMBus and PMBus
Build custom communication interfaces using PSoC 4 UDBs
PSoC 4 is a one-chip solution for customized system management and control
Rack-Mounted Routers and Switches

26. PSoC 4 Example Application: Temperature Sensing
Programmable analog front end
Integrate ADCs, opamps, current DACs and comparators into a PSoC one-chip analog design
Build custom analog front end designs in the PSoC Creator IDE
Multiple temperature sensors
Integrate multiple sensor AFEs for thermistors, diodes, thermocouples
and RTDs into a PSoC one-chip solution
Accelerate designs using PSoC Components that provide algorithms and firmware for accurate sensor conversion
PSoC 4 is an easy-to-use, low-cost, one-chip solution for temperature sensing
Temperature Controller

27. PSoC 4 Example Application: User Interfaces
Industry’s No. 1 CapSense solution
Build reliable CapSense buttons that “just work” because of Cypress’s rigorous engineering and testing
Simplify designs using the CapSense Component Configuration Tool
Eliminate manual tuning with SmartSense Auto-tuning, which continuously optimizes performance
Customized displays
Drive and control LED and segment LCDs
Integrate light sensor AFEs for auto-dimming
Low-power operation
Minimize power consumption using PSoC 4 low-power modes
Sleep: 1.3 mA
Deep Sleep: 1.3 µA
Hibernate: 150 nA
Stop: 20 nA
PSoC 4 is a one-chip, reliable, easy-to-use, low-power solution for user interfaces
Capacitive Buttons in a Digital Boom Box

28. PSoC 4 vs. 8-/16-bit Legacy MCUs
Feature
CY8C4125AXI-483
PIC24FJ32GA004
MSP430F5310
MC9S08LL16
uPD78F1211
CPU Speed (MHz) 24
32 (16 MIPS) 25 20
Flash Size (KB) 32 16
Serial Interface
4 SPI, 2 I2C,
4 UART
2 SPI, 2 I2C, 2 UART
1 SPI, 1 I2C,
1 UART
1 SPI, 1 I2C, 2 UART
ADC
12 bit SAR, 806 ksps
10 bit SAR, 500 ksps
10 bit SAR, 200 ksps
12 bit SAR, 400 ksps
10 bit SAR, 400 ksps
Opamp 2 - 1
Comparator 4
Capacitive Sensing Channels (with Auto-tuning)
36 (36)
LCD Drive
Yes
Supply Voltage
Package
44-TQFP
48-LQFP
44-LQFP

29. PSoC 4 vs. ARM Cortex-M0 Competition
Feature
CY8C4245AXI-483
STM32F150C6
LPC1114FBD48
MKL05Z32VLC4
NUC100LC1BN
ATSAMD20E15A
CPU Speed (MHz) 48 50
Flash Size (KB) 32
Programmable Digital Blocks 4 -
Serial Interface
4 SPI, 2 I2C,
4 UART
1 SPI, 1 I2C, 2 UART
2 SPI, 1 I2C, 1 UART
1 SPI, 1 I2C, 1 UART
1 SPI, 2 I2C, 2 UART
4 SPI, 4 I2C,
ADC
12 bit SAR,
1 Msps
10 bit SAR,
400 ksps
818 ksps
600 ksps
350 ksps
Opamp 2
Comparator 1
Capacitive Sensing Channels (with Auto-tuning)
36 (36)
18 (0)
14 (0)
60 (0)
LCD Drive
Yes
Supply Voltage
Package
44-TQFP
48-LQFP
32-TQFP

30. Getting Started with PSoC 4
PSoC 4 Pioneer Kit (CY8CKIT-042)
1. Download the PSoC Creator IDE:
2. Buy the $25 PSoC 4 Pioneer Kit:
3. Download the Getting Started with PSoC 4 App Note:
4. Attend the “Introduction to PSoC 4” Workshop in person:
Contact
PSoC 4 Pioneer Kit provides simple, rapid development
Direct access to all PSoC 4 I/O
Easy access to PSoC 4 power measurement test points
Compatible form factor with Arduino shields and Digilent® Pmod™ daughter cards
PSoC 4 Pioneer Kit provides an advanced debug interface
Onboard PSoC 5LP, factory-programmed to be a programmer and debugger
USB program and debug channel for target PSoC 4 device
USB-to-serial communication interface with the target PSoC 4 device

31. APPENDIX

32. References and Links Introductory video: www.cypress.com/psoc4
PSoC 4 Pioneer Kit (CY8CKIT-042) page:
Contains kit documentation and example projects
App Note AN79953: Getting Started with PSoC 4
App Note AN86233: PSoC 4 Low-Power Modes and Power Reduction Techniques
App Note AN82156: Designing PSoC Creator™ Components with UDB Data paths
App Note AN82250: Implementing Programmable Logic Designs with Verilog
PSoC 4 CapSense Design Guide:
Cypress Platform PSoC Product Roadmap: