Engineering Presentation Owner: GDK Rev *H Tech lead: GDK Presentation: To provide an engineering overview to customers for a Cypress solution. Title slide: To define what the presentation will cover. The subtitle is a one-sentence statement of the key opportunity. Reduce Your Manufacturing Cost and Time- to-Market PSoC 3 and PSoC 5LP For Temperature Sensing 001-76565 Rev *H
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Engineering Presentation Owner: GDK Rev *HTech lead: GDK Presentation: To provide an engineering overview to customers for a Cypress solution. Title slide:
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Presentation: To provide an engineering overview to customers for a Cypress solution.Title slide: To define what the presentation will cover. The subtitle is a one-sentence statement of the key opportunity.
Every sensor requires a special analog IC, which adds cost
Companies are re-engineering older products to reduce costReplacing older analog ICs as they become obsolete
Consolidating platforms to reduce PCB variants
Designing new products in smaller enclosures
This is a great opportunity to reduce your BOM, manufacturing cost, and time-to-market for your product portfolio
Market Vision: To define the market opportunity. Presents compelling data and end product photos relevant to the local market. Should use compelling photographs of actual PSoC products.
Temperature Sensors, each with its special analog IC
RTD Thermocouple
ADI REF192$2.01
TI LMP90078$2.45
ADI AD7792$4.04
ThermistorDiode
TI TMP431$0.55
Maxim MAX6682$1.82
MicrochipMicrocontroller
$2.94
Temperature Controllers:End-product variants require multiple PCBs
Terms of Art (ToAs): To clearly define tor engineers all ToAs used in the presentation. To carefully and fully define Cypress-proprietary ToAs needed to explain our system solution.
Terms You Will Hear TodayTemperature Sensors − convert temperature to an analog signalThermocouple (e.g., type K, J, T): generates ~40 µV/ oC, requires ADC and a reference Temperature Sensor
RTD (Resistance Temperature Detector): changes ~0.387 Ω/ °C, requires current source and ADC
Thermistor: changes ~400 Ω/ °C at room temperature, requires voltage source and ADC
Temperature diode: ~250 µV/ oC, requires current source and ADC
Current/Voltage Sources for SensorsICs that generate precise voltage or current supplies for sensors
IDAC (Current Output Digital to Analog Converter)IC that generates programmable current sources for sensors
ADC (Analog to Digital Converter)IC that converts analog sensor signals, such as Temperature Sensor outputs, to digital for a microcontroller
AFE (Analog Front End)IC that integrates ADC and either a current or voltage source
Terms of Art (ToAs): To clearly define for engineers all ToAs used in the presentation. To carefully and fully define Cypress-proprietary ToAs needed to explain our system solution.
PSoC Terms
PSoC® Creator™PSoC 3 and PSoC 5LP Integrated Design Environment (IDE)
Software that installs on your PC
Allows concurrent hardware/firmware design of PSoC systems
ComponentsFree “Virtual 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
Inherently connected to MCU via the main system bus
Sensor Components automatically convert ADC output to temperature
with sophisticated algorithms and excellent accuracy
Component Configuration ToolsSimple Graphical User Interfaces in PSoC Creator
Embedded in each Component
Used to customize Component parameters
Launched by right-clicking a Component
100+ other Componentsto complete the system design
AnalogComponents integrateanalog ICs
Sensor Components:RTD, Thermistor, and Thermocouple
MCU
Inherent system bus connection
The colored header on Component icons signifies system bus connection
The ADC Component integrates from 8-bits to 20-bits ADC ICs
Traditional Approach and Challenges: To present the traditional approach and the challenges engineers will face when using it to realize the Market Vision. Ends with a one-sentence segue clearly stating the benefit of the Cypress solution.
1. Temperature-sensing system requires multiple ICs ($)AFEs for each sensor
A microcontroller with firmware algorithms to convert and correct sensor outputs
and to communicate the temperature to other devices (e.g., displays)
2. Multiple-sensor interface design is complicated Single-IC obsolescence may cause redesign
PCB designs change every time a chip or wire changes
Sourcing ICs from multiple vendors complicates and slows development
3. Fitting products into small enclosures is challengingMultiple ICs require larger PCBs
PSoC overcomes these three problemsPSoC one-chip solution supports multiple Temperature Sensors (simultaneously)
PSoC Sensor Components provide algorithms and firmware for accurate sensor conversion
PSoC integrates the microcontroller and analog ICs with ADC and IDAC Components
PSoC enables fast, easy design modifications without PCB changes
PSoC simplifies design by integrating many ICs in a single chip
PSoC reduces PCB size and PCB layers, enabling smaller enclosures
PSoC is an easy-to-use, low-cost, one-chip temperature-sensing solution
Cypress Solution: Compelling CY Creator introduction to solve the challenges highlighted on the previous slide.Provides a short, clear list of what to do to get started.
To get started, you should:Buy $99 Precision Analog Sensor Kit (CY8CKIT-025)
Cypress Solution: Compelling CY Creator introduction to solve the challenges highlighted on the previous slide.Provides a short, clear list of what to do to get started.
1. Explore the library of 100+ Components
2. Drag and drop Component icons to complete your hardware system design in the main design workspace
3. Configure Components using the Component Configuration Tools
4. Access Component datasheets with technical specifications directly from the Component Configuration Tools
5. Codesign your application firmware with the PSoC hardware using the PSoC Creator IDE C compiler
6. Use included sensor specificApp Notes for complete system design guidelines
Multiple-sensor Example Project in PSoC Creator IDE
Cypress Solution: To introduce CY products and show compellingly how they solve the challenges highlighted on the previous slide. To provide a short, clear list of what to do to get started.
OLD: Traditional RTD Solution with 0.1% accuracy
DiscreteICs
Upgrading RTD Sensing
NEW: PSoC Creator RTD Component and Configuration Tool
RTD Component converts ADC output to accurate temperature with embedded algorithm library
OLD: Typical MCU code needed for RTDs
100+ lines of code
Traditional RTD solution requires 6 ICs
NEW: PSoC RTD Solution with 0.1% accuracy
ADC output goes to RTD Component
ADC with integrated voltage reference and amplifier
Cypress Solution: To introduce CY products and show compellingly how they solve the challenges highlighted on the previous slide. To provide a short, clear list of what to do to get started.
PSoC RTD Sensing Solution
Create your RTD solution in minutes
Download App Note AN70698 – Temperature Measurement with RTDs
Use the provided Example Project as a starting point (includes ADC and IDAC Components)
Configure the RTD Component based on your sensor type (PT100, PT500, PT1000) and temperature range
Select temperature calculation error budget vs. instruction cycles requirement
Design the remainder of your system in PSoC Creator
Build your project and prototype your system using the Precision Analog Sensor Kit
RTD Component Configuration Tool
Select RTD type,
temperature range and
calculation error budget;
view temperature
calculation error vs. temperature
6d
PSoC RTD Solution for broken-wire reconfiguration
Mechanical stress causes one of four wires to break
OLD: Traditional thermocouple solution with 0.1% accuracy
Discrete ICs
Cypress Solution: To introduce CY products and show compellingly how they solve the challenges highlighted on the previous slide. To provide a short, clear list of what to do to get started.
Upgrading Thermocouple Sensing
ADC output goes to Sensor Components that automatically convert to temperature
ADC with integrated voltage reference and amplifier
NEW: PSoC thermocouple solution with 0.1% accuracy
NEW: Thermocouple Component and Configuration Tool
Thermocouple Component converts ADC output to accuratetemperature with ninth-order polynomial500+ lines of code
Cypress Solution: To introduce CY products and show compellingly how they solve the challenges highlighted on the previous slide. To provide a short, clear list of what to do to get started.
PSoC Thermocouple Sensing SolutionCreate your Thermocouple Solution in minutes
Download App Note AN75511 – Temperature Measurement with Thermocouples
Use the provided Example Project as a starting point (includes thermistor circuit for cold junction compensation)
Choose thermocouple type (J, K etc.) in Component Configuration Tool
Choose temperature calculation error budget vs. instruction cycles requirement for thermocouple
Enter thermistor resistance at three temperatures in Thermistor Component Configuration Tool (for cold junction compensation)
Select calculation implementation method for thermistor based on instruction cycles vs. accuracy requirements
Design the remainder of your system in PSoC Creator
Build your project and prototype your system using the Precision Analog Sensor Kit
1. Current and voltage source for Temperature Sensors
2. Five Temperature Sensors with only passives external to PSoC
3. Multi-channel differential 20-bit ADC reading all Temperature Sensors
4. Sensor Components automatically convert ADC output to temperature
5. CapSense user interface and LCD display to select sensor to display and to calibrate sensors
Cypress Solution: To introduce CY products and show compellingly how they solve the challenges highlighted on the previous slide. To provide a short, clear list of what to do to get started.
Watch the demo video: www.cypress.com/go/CY8CKIT-025
Example Project from the Precision Analog Sensor Kit with five Temperature Sensors
Cypress Solution: To introduce CY products and show compellingly how they solve the challenges highlighted on the previous slide. To provide a short, clear list of what to do to get started.
App Notes: RTD, CAN InterfaceKits: Precision Analog Sensor Kit (CY8CKIT-025) PSoC 3 Kit (CY8CKIT-030)
Design ChallengesSupport 10 RTDs, each with four wiresProvide auto-reconfiguration for broken wireOffer high reliability to operate remote equipmentReduce PCB size
PSoC SolutionSupports 10 four-wire RTDs in a single PSoCDetects RTD broken wire and provides auto reconfigurationIncreases reliability with lower chip countIntegrates 12 ICs into PSoC one-chip solution
PSoC Value
PSoC® Solution Example – RTD Temperature Sensing with CAN
Suggested Collateral
Solution Examples: To give detailed one-page PSoC Solution Examples from the field in the specified format.
RTD (converts ADC output to temperature)ADC (16-bit Delta Sigma ADC with PGA)IDAC (programmable current source)MUX (Analog Multiplexer)DMA (Direct Memory Access between ADC and CAN module)CAN (communicate with host module) UART (communicate with external modules)
PSoC Creator Components
FLASH SRAM DMA
PSoC One-Chip Solution
UART (RS485)
CANADC
+ PGA
MUX
IDAC
10
RTDs
MUX
8
IntegratedAnalog
Components
Windmillsby VestasWith 10-sensor temperature measurement
Design ChallengesEliminate level shifter ICSupport customized UARTSupport multiple Temperature SensorsAchieve higher system reliability
PSoC SolutionEliminates level shifter IC with 5-V I/OEnables customized UART eliminating external CPLDSimplifies multiple-sensor design with integrated AFEImproves reliability by reducing chip count
PSoC Value
PSoC® Solution Example – TemperatureI/O Module with Custom UART
Suggested Collateral
Solution Examples: To give detailed one-page PSoC Solution Examples from the field in the specified format.
Thermocouple (converts ADC output to temperature)RTD (converts ADC output to temperature)ADC (16-bit Delta Sigma ADC with PGA)MUX (Analog Multiplexer)IDAC (programmable current source)UART (customized UART in PLD)Logic Gates (customized UART in PLD)
PSoC Creator ComponentsI/O Moduleby UnimatConverts temperature and voltage inputs to digital data for Programmable Logic Controller used in plant automation
Design ChallengesProvide temperature control with four Peltier modulesSupport multiple types of Temperature SensorsAchieve higher system reliability and safety
PSoC SolutionIntegrates 18 ICs into one-chip solution for temperature
control with four Peltier modulesSimplifies multiple-sensor design with integrated AFEEnables hardware current limiting for protection
PSoC Value
PSoC® Solution Example – Special Purpose Temperature Controller
Solution Examples: To give detailed one-page PSoC Solution Examples from the field in the specified format.
Thermocouple (converts ADC output to temperature)RTD (converts ADC output to temperature)ADC (16-bit Delta Sigma ADC with PGA)IDAC (programmable current source)CAN (communication interface) UART (communication interface)
PSoC Creator Components
App Notes: Diode, Thermocouple, RTDKits: Precision Analog Sensor Kit
(CY8CKIT-025) PSoC 3 Kit (CY8CKIT-030)
Suggested Collateral
Temperature Controllerby Cell SystemControls four Peltier modules that convert power into heating or cooling
Design ChallengesSupport 22 temperature sensing inputsEnable simultaneous sensing of two or more inputsSupport multiple types of Temperature Sensors
PSoC SolutionSupports 22 inputs with multiple ADCs and current sourcesEnables simultaneous sensing using multiple ADCsSimplifies multiple-sensor design with integrated AFE
PSoC Value
PSoC® Solution Example – Refrigeration Control System
App Notes: RTD, Thermocouple, ThermistorKits: Precision Analog Sensor Kit (CY8CKIT-
025) PSoC 5LP Kit (CY8CKIT-050)
Suggested Collateral
Solution Examples: To give detailed one-page PSoC Solution Examples from the field in the specified format.
Thermocouple (converts ADC output to temperature)RTD (converts ADC output to temperature)Thermistor (converts ADC output to temperature)ADC (12-bit SAR ADC)ADC (16-bit Delta Sigma ADC with PGA)MUX (Analog Multiplexer)SPI (8-Mbps interface to host processor)IDAC (programmable current source)
PSoC Creator Components
PSoC One-Chip Solution
+
IntegratedAnalog
Components
Block Diagram
Refrigeration Control UnitMonitors temperature inside shipping containers
App Note: ThermistorKits: Precision Analog Sensor Kit (CY8CKIT-
025)PSoC 5LP Kit (CY8CKIT-050)
Design ChallengesSupport 20 analog input measurementsProvide 8 analog outputs and 16 digital outputsProvide option for future memory expansion
PSoC SolutionSupports 20 analog inputs at 16-bit resolution Supports 8 analog outputs at 8-bit resolution and 16
digital outputsProvides External Memory Interface for future memory
expansion
PSoC Value
PSoC® Solution Example – I/O Expander for HVAC Control System
Suggested Collateral
Solution Examples: To give detailed one-page PSoC Solution Examples from the field in the specified format.
Thermistor (converts ADC output to temperature)ADC (16-bit Delta Sigma ADC with PGA)VDAC (Voltage output Digital to Analog Converter)MUX (Analog Multiplexer)CAN (communication interface with external modules)EMIF (External Memory Interface for future expansion)
PSoC Creator Components
FLASH DMA
PSoC One-Chip Solution IntegratedAnalog
Components
Block Diagram
I/O Expander for HVAC (Heating, Ventilation and Air Conditioning) Control SystemUsed for home automation and temperature control
Competitive Comparison: To define key features of the Cypress solution and demonstrate its superiority over NBA(s). Must be credible and objective to the salesperson and customer.
Feature Cypress PSoC 3 TI AFE and microcontroller
Chips Required for Temperature Controller 1 4
Number of Sensor Inputs 1 to 61 1 to 7
Number of Current/Voltage Sensor Sources Up to 4 sources Up to 2 sources
Graphical Design Tool Yes AFE only
Complete System Example Projects Yes No
Kit Price $198 $248
AFE Expansion Kit
Microcontroller interface board
TI / National AFE Expansion Kit and Microcontroller interface board
Single-chip PSoC3 solution reading Thermocouple
CapSense buttons select sensor to display
Thermocouple Input
Diodes
Thermistor(on-board or external input)
RTD (on-board or external input)
Four ICs from three different vendors
1 12
3
4
Precision Analog Sensor KitConnected to PSoC 3 Kit
Call to Action: To tell salespeople how to proceed. To ask them to volunteer account names, to schedule joint account visits, to use the scripted email, and to set up a demo.
Here’s How to Get Started1. View our demo videos: www.cypress.com/go/CY8CKIT-025
2. Download your sensor specific App Note: www.cypress.com/go/TempSense
3. Buy the Precision Analog Sensor Kit and PSoC 3 Kit or PSoC 5LP Kit
www.cypress.com/go/CY8CKIT-030 (CY8CKIT-030) $99
www.cypress.com/go/CY8CKIT-050 (CY8CKIT-050) $99
www.cypress.com/go/CY8CKIT-025 (CY8CKIT-025) $99
Controls four Peltier modules that convert power into heating or cooling
Converts temperature and voltage inputs to digital data for Programmable Logic Controller used in plant automation
10-sensor temperature measurement
Measures temperature and communicates information over 4-20mA or HART protocol
11
Windmillsby Vestas
Temperature TransducerSpecial Purpose Temperature Controllersby Cell System
Other available materials: Provide distributors with comprehensive view of resources to assist in selling the solution.
Demo Videos: www.cypress.com/go/tempsense Demonstrates Precision Analog Sensor Kit operation and accuracy measurement
Precision Analog Sensor Kit (CY8CKIT-025) Page: www.cypress.com/go/CY8CKIT-025 Contains kit documentation and three Example Projects for multi-sensor designs
Temperature Sensing and Control application page: www.cypress.com/go/tempsense Contains links to all temperature sensing related collateral from Cypress
App Note AN75511 for Thermocouple: www.cypress.com/?rID=60544
App Note AN70698 for RTD: www.cypress.com/?rID=57546
App Note AN66477 for Thermistor: www.cypress.com/?rID=49052 App Note AN60590 for Diode: www.cypress.com/?rID=42993 App Note AN66444 for offset cancellation technique: www.cypress.com/?rID=49159 App Note AN65977 for TMP05 / TMP06 digital sensor: www.cypress.com/?rID=48490 App Note AN66627 for Intelligent Fan Controller: www.cypress.com/?rID=49077