1. New Product Introduction: PSoC® 4 M-Series PSoC 4 With 128KB Flash and More Programmable Analog and Digital Blocks
Replace Legacy 8-/16-Bit Platforms With the World’s Most Flexible 32-Bit ARM® Cortex®-M0 One-Chip Solution
Title

2. 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 with the graphical state machine editor or using 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 A PSoC Programmable Digital Block configurable as a 16-bit timer, counter, PWM or quadrature decoder
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
Terms of Art

3. 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
Terms of Art

4. 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
Terms of Art

5. PSoC 4 Delivers the World’s Most Flexible 32-Bit ARM Cortex-M0 Platform
Comparison of 8-/16-Bit MCUs vs. ARM 32-Bit Cortex-M0 MCUs vs. PSoC 4
Feature
8-/16-Bit MCUs
ST Cortex-M0
NXP Cortex-M0
Atmel Cortex-M0
Cypress PSoC 4
Flash (KB)
16-256
4-512
8-256
Coprocessors
PTG1, XGate2
DMA
Up to 8 UDBs, DMA
Specialized Serial Interfaces
USB, CAN, Microwire3, LIN4, Ethernet
USB, CAN, BLE5
USB, CAN, LIN4
USB, 2 CAN, UDB-Based Microwire3, LIN, BLE5
Serial Interfaces
2 SPI, 1 I2C, 4 UART
2 SPI, 2 I2C, 4 UART
2 SPI, 4 I2C, 5 UART
6 SPI, 6 I2C, 6 UART
8 SPI, 5 I2C, 6 UART
Timers/Counters/PWMs
6/6/6
9/9/8
4/4/11
8/8/8
16/16/24
Comparators 4 2 1 6
Opamps
DACs
Touch-Sensing Blocks
GPIO
2-122
12-88
6-80
12-52
5-98
Max Touch I/Os 64 18 52 94
Supply Voltage V V V V V
Custom sensor AFEs are created using comparators, opamps and DACs by configuring PSoC Programmable Analog Blocks
Custom interfaces and Coprocessors are created using UDBs and TCPWMs by configuring PSoC Programmable Digital Blocks
Programmable Analog = # CTBms + Cmps + ADC + DAC + CapSense
Programmable Digital = # UDBs + # SCBs + # TCPWMs
BU Note: the table is designed how a customer sees the world and the blue lines tie the table back to the prog. Analog/digital.
PSoC 4 M-Series extends the ARM Cortex-M0 PSoC 4 portfolio with 128KB flash, 55 I/Os, DMA, CAN, Programmable Analog Blocks and 16 Programmable Digital Blocks
1 Peripheral Trigger Generator is a user-programmable Coprocessor from Microchip 4 Local interconnect network serial interface typically used in automotive applications
2 A Coprocessor in Freescale 16-bit MCUs designed to offload interrupt handling from the CPU 5 Bluetooth Low Energy wireless communication solution
3 A serial communication interface based on a subset of the SPI communication protocol
Market Positioning

6. Design Problems Engineers Face
Engineers must replace 8-/16-bit platforms with ARM platforms to increase performance at low cost
ARM Cortex-M0 MCUs lack the breadth of peripherals available in legacy 8-/16-bit MCUs (e.g., timing-critical Coprocessors)
Engineers must add new features without increasing product cost, size or power consumption
ARM Cortex-M0 MCUs lack the flexibility to support emerging serial communication interfaces (e.g., PDM1, CC2, NRZ3)
Many new features require sensors, which require additional AFEs (e.g., opamps) that are not available in ARM Cortex-M0 MCUs
Sophisticated user interfaces require additional touch or display ICs
Engineers must rapidly add new features due to accelerating product development cycles
Adding new features requires prototyping with multiple cycles of learning, resulting in multiple PCB spins and lost time-to-market
Accommodating last-minute feature changes causes delays
Cypress’s PSoC 4 M-Series solves these problems:
Replaces 8-/16-bit platforms with an ARM Cortex-M0 platform, including Programmable Analog and Programmable Digital Blocks
Implements legacy 8-/16-bit Coprocessors and emerging serial communication interfaces with Programmable Digital Blocks
Creates custom AFEs for sensors and supports large UIs with up to 55 touch-sensing buttons with Programmable Analog Blocks
Uses PSoC Creator and Components to enable last-minute feature changes without PCB spins
PSoC 4 M-Series enables engineers to replace legacy 8-/16-bit MCUs while maximizing flexibility with an ARM Cortex-M0 MCU, Programmable Analog Blocks and Programmable Digital Blocks
1 Pulse-density modulation is a modulation technique to represent an analog signal with digital data
2 Configuration Channel used in the USB 3.1 Specification for Type-C connectors to detect orientation and type of connection (e.g., power delivery, data)
3 A non-return-to-zero communication protocol for controlling LED lighting
Design Problems

7. PSoC 4 M-Series Extends the PSoC 4 Portfolio
Solve complex design problems with the PSoC 4 M-Series expansion to the PSoC 4 architecture:
Up to 128KB flash, 16KB SRAM, DMA, 2x CAN and 55 I/Os that support analog, digital and CapSense touch-sensing interfaces
More Programmable Digital Blocks: 8x TCPWMs, 4x SCBs and 4x UDBs to integrate 8-/16-bit Coprocessors and serial interfaces
More Programmable Analog Blocks: 2x low-power comparators, 4x opamps and 4x IDACs1 to integrate AFEs
The PSoC 4 L-Series extends the PSoC 4 portfolio with more flash, I/Os, USB and programmable blocks
Feature
PSoC 42002
PSoC M-Series
Flash Size/SRAM (KB)
32/4
128/16
DMA No
Yes
ADC
12-bit SAR3 1 Msps
Opamps 2 4
Comparators4 3 6
IDACs1
UDBs
Timers/Counters/PWMs
8/8/12
12/12/16
CAN
USB
Serial Interfaces5
4 SPI, 2 I2C, 3 UART
6 SPI, 4 I2C, 5 UART
I/Os (Capacitive Sensing I/Os)
36 (36)
55 (55)
Availability
Now
Sampling Now
PSoC L-Series
256/32
Yes
12-bit SAR3 1 Msps 4 6 8
16/16/20 2
8 SPI, 5 I2C, 6 UART
98 (94)
Sampling Q315
1 Current-output digital-to-analog converter 4 Maximum number of comparators (2x dedicated low-power comparators + 4x comparators configured using the CTB) 2 PSoC 4200 is the largest device family in each of these categories 5 Maximum number of serial interfaces
3 Successive approximation register
Cypress Solution

8. Programmable Digital Blocks Implement Coprocessors and Serial Interfaces
PSoC 4 implements Coprocessors and serial interfaces without increasing cost, size or power with:
Universal Digital Blocks (UDBs) that can be configured as:
Timing-critical Coprocessors that simplify firmware and ISR handling by replacing “bit-banging” firmware1
Custom serial communication interfaces for emerging standards that replace external glue logic ICs (e.g., Microwire2)
Serial Communication Blocks that can be configured as serial communication interfaces like I2C, UART, SPI, or LIN
TCPWM Blocks that can be configured as timers, counters, PWMs, or quadrature decoders
Three Design Methods Used to Create Custom Digital Logic Using UDBs In PSoC Creator
1. Use digital logic Components…
3. Or the Verilog code in the
code editor…
To program the UDB.
PLD3 Chaining4
PLD3
12C4
(8 PTs5)
PLD3
12C4
(8 PTs5)
Clock and Reset Control
2. Or the graphical state machine editor…
Data Path6
Status and Control
Data Path6 Chaining4
Digital Routing to the System Bus
3 Programmable logic device (12C4 = 12 inputs with 4 combinatorial outputs)
4 A technique used to combine elements of a UDB to form larger elements
5 Product term: A logical conjunction of Boolean inputs
6 A programmable element of a UDB that contains an arithmetic logic unit
1 A technique using firmware to directly control the state of I/Os
2 A serial communication interface based on a subset of the SPI protocol
Cypress Solution

9. Programmable Analog Blocks Create Custom AFEs and Sophisticated UIs
PSoC 4 enables custom AFE designs and sophisticated UIs without increasing cost, size or power with:
A differential 1-Msps, 12-bit SAR1 ADC and high-performance opamps with ±1-mV-input offset voltage and 6-MHz gain bandwidth that offer discrete analog performance
A 55-channel analog multiplexer that can be used to create custom AFE designs
A 5-V input voltage that provides over 50% more analog input signal range than 3.3-V input voltages in most ARM Cortex-M0 MCUs
A CapSense hardware block for sophisticated, capacitive touch-sensing user interfaces with advanced features such as proximity sensing3, water tolerance4 and SmartSense™ AutoTuning5
PSoC 4 M-Series Programmable Analog Blocks
CapSense Component With Configuration Tool in PSoC Creator
Programmable Analog Blocks
Opamp x4
12-bit SAR1 ADC
1 Msps
12-bit SAR ADC
1 Msps
Low-Power
Comparator x2
CapSense x1
CapSense drag-and-drop design Component icon
8-bit IDAC2 x2
7-bit IDAC2 x2
The CapSense graphical Component Configuration Tool simplifies parameter configuration
1 Successive approximation register 4 The ability of a capacitive sensing solution to work in the presence of water droplets or mist 2 Current-output digital-to-analog converter 5 Cypress algorithm that automatically sets parameters for optimal performance after the design
3 A method to detect the presence of approaching objects without a physical touch phase and continuously compensates for system, manufacturing and environmental changes
Cypress Solution

10. PSoC Creator and PSoC Components Enable Rapid Prototyping
Multiple AFE ICs, a CAN controller, a CPLD IC and a legacy MCU…
Are integrated using Components and pre-built communication protocols in the PSoC Creator IDE…
And rapidly prototyped to create a one-chip solution…
That can be changed in software without costly PCB spins.
Dual-Channel Opamp
Instrumentation Amplifier
CPLD
CAN Controller
$25 PSoC 4 M-Series Pioneer Kit (CY8CKIT-044)
16-Bit MCU
Cypress Solution

11. Getting Started With PSoC 4 M-Series
1. Watch the Introduction to PSoC 4 video:
2. Download the PSoC Creator IDE:
3. Buy the $25 PSoC 4 M-Series Pioneer Kit (CY8CKIT-044):
4. Download the Getting Started With PSoC 4 App Note:
The PSoC 4 M-Series Pioneer Kit simplifies the evaluation of PSoC 4
Features a PSoC 4200M device, with 128KB flash and direct access to all 51 GPIOs
Provides easy access to PSoC 4 power-measurement test points
Offers form-factor compatibility with Arduino® shields1 and Raspberry Pi2
Enables on-chip system debug with a PSoC 5 programmer and debugger
Includes a 1Mb Serial F-RAM3 for off-chip, nonvolatile data storage
$25 PSoC 4 M-Series Pioneer Kit (CY8CKIT-044)
6.2 cm
Raspberry Pi2 Header
F-RAM3 FM24V10
Arduino Shield1 Header
9.8 cm
PSoC 4200M Device
PSoC 5 for Program and Debug
1 Boards that are form-factor compatible with the Arduino hobbyist ecosystem of kits
2 Form-factor compatible headers for the Raspberry Pi hobbyist ecosystem of kits
3 Ferroelectric RAM with an I2C serial interface
Getting Started

12. APPENDIX
Appendix 18

13. References and Links
PSoC 4 product webpage: Introduction to PSoC 4 video: PSoC 4100M datasheet: PSoC 4200M datasheet: PSoC product roadmap: PSoC 4 M-Series Pioneer Kit webpage: PSoC Creator IDE: App Notes: Getting Started With PSoC 4 (AN79953): PSoC 4 Low-Power Modes and Power Reduction Techniques (AN86233): PSoC 4 CapSense Design Guide: PSoC 4 Intelligent Fan Controller (AN89346): PSoC 4 I2C Bootloader (AN86526): PSoC 4 and PSoC 5LP ARM Cortex Code Optimization (AN89610): PSoC 3, PSoC 4, PSoC 5LP Digital Design Best Practices (AN81623): PSoC 4100/4200 Hardware Design Considerations (AN88619): Designing PSoC Creator™ Components With UDB Datapaths (AN82156): Implementing Programmable Logic Designs With Verilog (AN82250):
References and Links

14. PSoC 4 M-Series Product Selector Guide
Part Number
CPU Speed
Flash
UDB1
SAR ADC2
CapSense
Opamps
CMP3
CAN4
TCPWM5
SCB6
GPIOs
IDAC7
CY8C4125AZI-M443
24 MHz
32KB
806 Ksps  2 8 4 38
CY8C4126AZI-M445
64KB 51
CY8C4246AZI-M445
48 MHz
1 Msps
CY8C4246LTI-M475 55
1x 7-bit, 1x 8-bit
CY8C4246AXI-M445
CY8C4247LTI-M475
128KB
CY8C4247AZI-M475
CY8C4247AZI-M485
CY8C4247AXI-M485
This table shows a subset of PSoC 4 part numbers. Refer to the product datasheet for a complete list.
PSoC 4 Part Numbering Decoder
CY 8C 4X X X XX X M XXX
Device Identification Number that corresponds to the part feature set
Series Designator: M = M-Series
Temperature Range: I = Industrial, A = Automotive8
Package: LT = QFN, AX = TQFP (0.8-mm pitch), AZ = TQFP (0.5-mm pitch)
Flash Size: 5 = 32KB, 6 = 64KB, 7 = 128KB
CPU Speed: 4 = 48 MHz, 2 = 24 MHz
Product Type: 42 = Programmable Digital, 41 = Intelligent Analog
Marketing Code: 8C = PSoC Platform
Company ID: CY = Cypress
1 Universal Digital Block 4 Number of CAN transceivers Current-output digital-to-analog converter
2 12-bit successive approximation register ADC 5 Timer, counter, PWM block PSoC 4 is qualified to meet AEC-Q100 standards
3 Number of dedicated low-power comparators 6 Serial communication block programmable as UART, SPI or I2C
Product Selector Guide

15. Additional Terms Analog Front End (AFE) Coprocessor
An analog signal-conditioning circuit that uses opamps, filters and comparators to interface to an analog-to-digital converter (ADC)
Coprocessor
A specialized hardware block designed to offload compute-intensive tasks, such as signal processing or communication interfaces, from the main processor
Direct Memory Access (DMA)
A method to transfer data between hardware subsystems and main system memory without involving the main processor, typically implemented in a Coprocessor (e.g., a DMA controller)
Controller Area Network (CAN)
A serial communication standard designed for automotive applications to provide highly reliable communication between devices
Terms of Art

16. PSoC® 4 Portfolio ARM® Cortex®-M0 | CapSense®
PSoC MCU
PSoC 4000
Intelligent Analog
PSoC 4100
Programmable Digital
PSoC 4200
Programmable Analog
PSoC 4400
BL = BLE-Series M = M-Series L = L-Series
CY8C4128-BL
24 MHz, 256K/32K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, BLE7
Q215
CY8C4248-L
48 MHz, 256K/32K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8, CAN9, USB
NEW
Q315
CY8C4248-BL
48 MHz, 256K/32K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, BLE7, UDB8
Q215
NEW
CY8C4127-M
24 MHz, 128K/16K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, CAN9
Q215
CY8C4127-BL
24 MHz, 128K/16K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, BLE7
NEW
CY8C4247-M
48 MHz, 128K/16K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8, CAN9
NEW
Q215
NEW
CY8C4247-L
48 MHz, 128K/16K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8, CAN9, USB
Q315
NEW
CY8C4247-BL
48 MHz, 128K/16K1, CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, BLE7, UDB8
Performance
NEW
CY8C4126-M
24 MHz, 64K/8K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6
Q215
CY8C4246-M
48 MHz, 64K/8K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8
NEW
Q215
CY8C4246-L
48 MHz, 64K/8K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8, CAN9, USB
NEW
Q315
CY8C44x6
48 MHz, 64K/16K1
Concept Only
Contact Sales
CY8C4125
24 MHz, 32K/4K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6
CY8C4245
48 MHz, 32K/4K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8
CY8C44x5
48 MHz, 32K/8K1
Concept Only
Contact Sales
3. BLE sampling
CY8C4014
16 MHz, 16K/2K1,
CMP2, I2C, IDAC5, TCPWM6
CY8C4124
24 MHz, 16K/4K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6
CY8C4244
48 MHz, 16K/4K1,
CMP2, Opamp, ADC3, SCB4, IDAC5, TCPWM6, UDB8
CY8C4013
16 MHz, 8K/2K1,
CMP2, I2C, IDAC5, TCPWM6
Integration
1 Flash KB/SRAM KB 4 Serial communication block programmable as I2C/SPI/UART 7 Bluetooth Low Energy
2 Comparator 5 Current-output digital-to-analog converter 8 Universal Digital Block
3 Analog-to-digital converter 6 Timer, counter, PWM block Controller Area Network
Production
Development
QQYY
Availability
Sampling
Concept
Status
Roadmap

17. PSoC® 4100 M-Series Intelligent Analog Family
Applications
Block Diagram
User interface and host processor for home appliances
Digital and analog sensor hub
MCU and discrete analog replacement
PSoC® 4 One-Chip Solution
MCU Subsystem
Programmable Analog Blocks
I/O Subsystem
GPIO x8
Opamp x4
SAR1 ADC
Features
32-bit MCU Subsystem
24-MHz ARM® Cortex®-M0 CPU with a DMA controller and RTC
Up to 128KB flash and 16KB SRAM
Up to 55 GPIOs supporting analog, digital and CapSense interfaces
CapSense® With SmartSense™ Auto-tuning
Cypress Capacitive Sigma-Delta™ (CSD) controller
Programmable Analog Blocks
Six comparators (CMP)
Four opamps, programmable as PGAs, CMPs, filters, etc.
One 12-bit, 1-Msps SAR1 ADC
Four IDACs2 (2x 8-bit, 2x 7-bit)
Programmable Digital Blocks
Eight programmable 16-bit TCPWM3 blocks
Four SCBs4: I2C master or slave, SPI master or slave, or UART
Two Controller Area Network (CAN) Controllers
Packages: 48-pin LQFP, 64-pin TQFP (0.8-mm pitch), 64-pin TQFP (0.5-mm pitch), 68-pin QFN
GPIO x8
Cortex-M0
24 MHz
CMP x6
CSD
GPIO x8
8-bit IDAC2 x2
7-bit IDAC2 x2
Flash (64KB to 128KB)
Advanced High-Performance Bus (AHB)
Programmable Interconnect and Routing
GPIO x8
SRAM
(8KB to 16KB)
Programmable Digital
Blocks
Serial Wire Debug
TCPWM3 x8
GPIO x8
CAN x2
Add IDAC
SCB4 x4
GPIO x8
RTC
DMA
Segment LCD Drive
GPIO x7
Collateral
Availability
Datasheet: PSoC 4100M datasheet
Sampling: Now
Production: Q2 2015
1 Successive approximation register 3 Timer, counter, PWM block Current-output digital-to-analog converter 4 Serial communication block programmable as I2C/SPI/UART
Product Overview

18. PSoC® 4200 M-Series Programmable Digital Family
Applications
Block Diagram
User interface and host processor for home appliances
Digital and analog sensor hub
LED control and communication for lighting systems
PSoC® 4 One-Chip Solution
MCU Subsystem
Programmable Analog Blocks
I/O Subsystem
GPIO x8
Opamp x4
SAR1 ADC
Features
32-bit MCU Subsystem
48-MHz ARM® Cortex®-M0 CPU with a DMA controller and RTC
Up to 128KB flash and 16KB SRAM
Up to 55 GPIOs supporting analog, digital and CapSense interfaces
CapSense® With SmartSense™ Auto-tuning
Cypress Capacitive Sigma-Delta™ (CSD) controller
Programmable Analog Blocks
Six comparators (CMP)
Four opamps, programmable as PGAs, CMPs, filters, etc.
One 12-bit, 1-Msps SAR1 ADC
Four IDACs2 (2x 8-bit, 2x 7-bit)
Programmable Digital Blocks
Four Universal Digital Blocks (UDBs3): custom digital peripherals
Eight programmable 16-bit TCPWM4 blocks
Four SCBs5: I2C master or slave, SPI master or slave, or UART
Two Controller Area Network (CAN) Controllers
Packages: 48-pin LQFP, 64-pin TQFP (0.8-mm pitch), 64-pin TQFP (0.5-mm pitch), 68-pin QFN
GPIO x8
Cortex-M0
48 MHz
CMP x6
CSD
GPIO x8
8-bit IDAC2 x2
7-bit IDAC2 x2
Flash (64KB to 128KB)
Advanced High-Performance Bus (AHB)
Programmable Interconnect and Routing
GPIO x8
SRAM
(8KB to 16KB)
Programmable Digital
Blocks
Serial Wire Debug
UDB3 x4
GPIO x8
CAN x2
TCPWM4 x8
Add IDAC
GPIO x8
RTC
SCB5 x4
DMA
Segment LCD Drive
GPIO x7
Collateral
Availability
Datasheet: PSoC 4200M datasheet
Sampling: Now
Production: Q2 2015
1 Successive approximation register 3 Universal Digital Block 5 Serial communication block programmable as I2C/SPI/UART 2 Current-output digital-to-analog converter 4 Timer, counter, PWM block
Product Overview

19. PSoC® 4200 L-Series Programmable Digital Family
Applications
Block Diagram
User interface and host processor for home appliances
Digital and analog sensor hub
MCU and discrete analog replacement
LED control and communication for lighting systems
PSoC® 4 One-Chip Solution
MCU Subsystem
Programmable Analog Blocks
I/O Subsystem
GPIO x8
Opamp x4
SAR2 ADC
GPIO x8
Features
32-bit MCU Subsystem
48-MHz ARM® Cortex® -M0 CPU with a DMA controller and RTC1
Up to 256KB flash and 32KB SRAM
Up to 98 GPIOs supporting analog and digital interfaces
CapSense® With SmartSense™ Auto-tuning
Two Cypress Capacitive Sigma-Delta™ (CSD) controllers
Programmable Analog Blocks
Two comparators (CMPs)
Four opamps, configurable as PGAs, CMPs, filters, etc.
One 12-bit, 1-Msps SAR2 ADC
Four IDACs3 (2x 8-bit, 2x 7-bit)
Programmable Digital Blocks
Eight Universal Digital Blocks (UDBs): custom digital peripherals
Eight configurable 16-bit TCPWM4 blocks
Four SCBs5: I2C master or slave, SPI master or slave, or UART
Full-Speed USB 2.0 Controller and Transceiver
Two Controller Area Network (CAN) Controllers
Packages: 48-pin TQFP, 64-pin TQFP, 68-pin QFN, 124-pin µBGA
Cortex-M0
48 MHz
GPIO x8
CMP x6
CSD x2
GPIO x8
GPIO x8
8-bit IDAC3 x2
7-bit IDAC3 x2
Flash (64KB to 256KB)
GPIO x8
Advanced High-Performance Bus (AHB)
Programmable Interconnect and Routing
SRAM
(8KB to 32KB)
Programmable Digital
Blocks
GPIO x8
Serial Wire Debug
UDB x8
GPIO x8
CAN x2
GPIO x8
TCPWM4 x8
Full-Speed USB 2.0
GPIO x8
SCB5 x4
RTC1
GPIO x8
DMA
Segment LCD Drive
GPIO x4
Collateral
Availability
Preliminary Datasheet: Contact Sales
Sampling: Q3 2015
Production: Q4 2015
1 Real-time clock 3 Current-output digital-to-analog converter 5 Serial communication block programmable as I2C/SPI/UART 2 Successive approximation register 4 Timer, counter, PWM
Product Overview

20. Induction Cooktop PSoC® 4 M-Series Solution Example: PSoC Value
Block Diagram
Design Problems
Implement the main controller and the user interface
Control the IGBT1 driver, fan and Piezo speaker
Read touch buttons, sliders and proximity sensors
Read multiple sensor outputs (temperature, humidity)
Provide a liquid-tolerant2 user interface for consumers
Class B certification for safe cooktop control required
PSoC 4200 M-Series Solution
Integrates all the required functions of the main controller and user interface controller in a one-chip solution
Enables a liquid-tolerant CapSense® solution
Provides Class B API libraries for safe operation
PSoC® 4 M-Series One-Chip Solution
ARM® Cortex®-M0 MCU
Flash
Segment LCD Drive
Vref
Humidity Sensor 32 Op
amp 22 32
AMUX
Segment LCD
ADC Op
amp
IGBT Drivers
x14
PWMs
x14
Temperature Sensor 14
Vref 32
RTC 32
Induction Coils
x14
Crystal
Suggested Collateral
Sliders
Buttons
Proximity Sensors
Software: PSoC Creator
App Notes: PSoC 4 CapSense Design Guide
IEC Class B Safety Software Library
Kit: PSoC 4 M-Series Pioneer Kit (CY8CKIT-044)
PWM
Piezo Speaker 32
CapSense 32 20
Fan Controller
PSoC Creator Components
CapSense (provides capacitive sensing solution)
RTC (provides hour:minute:second)
Fan Controller (controls and monitors the fan)
ADC (converts analog to digital)
Opamps (conditions the analog sensor signals)
PWM (controls the IGBT driver and Piezo speaker) 32
PSoC 4 L-Series provides a one-chip solution to integrate the induction drive control and user interface
1 Insulated-gate bipolar transistor 2 The ability of a capacitive sensing solution to work in the presence of liquid droplets (e.g., water or oil) or mist
Solution Example

21. PSoC 4 M-Series Solution Value Example: Induction Cooktop1
Price: $1.103
Price: $0.572
Additional Value
Value Added: $0.15
$2.11
$1.10
$0.57
$1.67
$0.15
$3.93
Competitor
Thermal Management IC
Touch-Sensing Controller
BOM Integration Value
PSoC Creator IDE
Total Additional Value
Total Value Delivered
Target PSoC Solution:
Total Cost:
18% Total Savings:
CY8C4247LTI-M475
$3.242
$0.69
1 Refer to the Appendix for more details about the PSoC 4 M-Series induction cooktop solution example
2 Supplier website 10ku pricing on 02/12/2015
3 Supplier website 1ku pricing on 02/12/2015
Pricing

22. PSoC 4 M-Series vs. Legacy 8-/16-Bit MCUs
Feature
CY8C4127 LTI-M475
PIC24FJ32 GA004
MSP430 F5310
MC9S0PT60
ATmega 1280/V
CPU Speed (MHz) 24
32 (16 MIPS) 25 20 16
Flash Size (KB)
128 32 60
ADC
12-bit SAR1 806 ksps
10-bit SAR1 500 ksps
10-bit SAR1 200 ksps
12-bit SAR1
10-bit SAR ksps
Opamps 4 -
Comparators 6 2 1
DACs
Timers/Counters/PWMs
12/12/16
5/5/5
4/4/4
5/3/3
6/6/6
Serial Interfaces
4 SPI, 4 I2C, 4 UART
2 SPI, 1 I2C, 2 UART
1 SPI, 1 I2C, 1 UART
2 SPI, 1 I2C, 3 UART
1 SPI, 4 UART
GPIO/Capacitive Sensing I/Os/Analog I/Os
55/55/55
35/18
47/0/11
57/16/17
64/64/22
Supply Voltage (V)
1 Successive approximation register
Competitive Comparison

23. PSoC 4 M-Series vs. ARM Cortex-M0 MCUs
Feature
CY8C4247 LTI-M475
LPC11E37 FBD64
STM32F0 71RB
MKL36Z128 VLH4
ATSAMD20 J17
CPU Speed (MHz) 48 50
Flash Size (KB)
128
ADC
12-bit SAR1 1 Msps
10-bit SAR1 400 ksps
16-bit SAR1 460 ksps
12-bit SAR1 350 ksps
Opamps 4 -
Comparators 6 2 1
UDBs
Timers/Counters/PWMs
12/12/16
4/4/0
9/9/8
11/11/10
8/8/8
CAN2
Serial Interfaces
6 SPI, 4 I2C, 5 UART
2 SPI, I2C, UART
2 SPI, 2 I2C, 4 UART
2 SPI, 2 I2C, 3 UART
6 SPI, 6 I2C, 6 UART
GPIO/Capacitive Sensing I/Os/Analog I/Os
55/55/55
54/0/8
51/18/36
54/16/24
52/52/25
Supply Voltage (V)
1 Successive approximation register 2 Controller area network
Competitive Comparison