Cypress.com: Documentation

CY7C604XX: enCoRe™ V Low Voltage Microcontroller

Thu, 09 May 2013 05:45:25 -0600

enCoRe™ V Low Voltage Microcontroller

Features

Powerful Harvard Architecture Processor
Flexible On-Chip Memory
Complete Development Tools
Precision, Programmable Clocking
Programmable Pin Configurations
Additional System Resources
For more, see pdf

Functional Overview

The enCoRe V LV family of devices are designed to replace multiple traditional low voltage microcontroller system components with one, low cost single chip programmable component. Communication peripherals (I2C/SPI), a fast CPU, Flash program memory, SRAM data memory, and configurable I/O are included in a range of convenient pinouts.

Cypress Semiconductor Leadtime Guide

Wed, 08 May 2013 06:53:19 -0600

CYRF69313: Programmable Radio-on-Chip LPstar

Wed, 08 May 2013 04:22:53 -0600

Programmable Radio-on-Chip LPstar

Features

Radio System-on-Chip, with built-in 8-bit MCU in a single device.
Operates in the unlicensed worldwide Industrial, Scientific, and Medical (ISM) band (2.400 GHz to 2.483 GHz).
On Air compatible with second generation radio WirelessUSB™ LP and PRoC LP.
Pin-to-pin compatible with PRoC LP except the Pin31 and Pin37.

Intelligent

M8C based 8-bit CPU, optimized for human interface devices (HID) applications
256 bytes of SRAM
8 Kbytes of flash memory with EEPROM emulation
In-System reprogrammable through D+/D– pins
CPU speed up to 12 MHz
For more, see pdf

Functional Description

PRoC LPstar devices are integrated radio and microcontroller functions in the same package to provide a dual role single-chip solution.

Communication between the microcontroller and the radio is via the SPI interface between both functions.

CYRF69303: Programmable Radio-on-Chip LPstar

Tue, 07 May 2013 06:55:29 -0600

Programmable Radio-on-Chip LPstar

Features

Radio System-on-Chip with built-in 8-bit MCU in a single device.
Operates in the unlicensed worldwide Industrial, Scientific, and Medical (ISM) band (2.400 GHz to 2.483 GHz).
On Air compatible with second generation radio WirelessUSB™ LP and PRoC LP.
Pin-to-pin compatible with PRoC LP except the Pin31 and Pin37.

Intelligent

M8C based 8-bit CPU, optimized for human interface devices (HID) applications
256 bytes of SRAM
8 Kbytes of flash memory with EEPROM emulation
In-system reprogrammable through D+/D– pins
CPU speed up to 12 MHz
For more, see pdf

Functional Description

PRoC LPstar devices are integrated radio and microcontroller functions in the same package to provide a dual-role single-chip solution.

Communication between the microcontroller and the radio is through the radio’s SPI interface.

CYRF8935: WirelessUSB™-NL 2.4 GHz Low Power Radio

Tue, 07 May 2013 01:12:21 -0600

WirelessUSB™-NL 2.4 GHz Low Power Radio

Features

Fully integrated 2.4-GHz radio on a chip
1-Mbps over-the-air data rate
Transmit power typical: 0 dBm
Receive sensitivity typical: –87 dBm
1 μA typical current consumption in sleep state
Closed-loop frequency synthesis
Supports frequency-hopping spread spectrum
On-chip packet framer with 64-byte first in first out (FIFO) data buffer
Built-in auto-retry-acknowledge protocol simplifies usage
For more, see pdf

Product Description

WirelessUSB™-NL, optimized to operate in the 2.4-GHz ISM band, is Cypress's third generation of 2.4-GHz low-power RF technology, bringing the next level of low-power performance into a small 4-mm × 4-mm footprint. WirelessUSB-NL implements a Gaussian frequency-shift keying (GFSK) radio using a differentiated single-mixer, closed-loop modulation design that optimizes power efficiency and interference immunity.

QTP 124707: PRoC Touch/Capsense Device Family, 0.18um, TSMC & S8DIN-5R, Fab 5 GSMC

Thu, 02 May 2013 06:20:32 -0600

CYRF69213: Programmable Radio on Chip Low Power

Tue, 30 Apr 2013 07:03:36 -0600

PRoC™ LP Features

USB 2.0-USB-IF certified (TID # 40000552)
Single Device, Two Functions
Flash Based Microcontroller Function
Industry-Leading 2.4 GHz Radio Transceiver Function
Component Reduction
Flexible I/O
USB Specification Compliance
Operating Voltage from 4.0 V to 5.5 V DC
Operating Temperature from 0 to 70°C
Pb-free 40-pin QFN Package
Advanced Development Tools Based on Cypress’s PSoC® Tools
For more,see pdf

Functional Description

PRoC LP devices are integrated radio and microcontroller functions in the same package to provide a dual role single-chip solution.

Communication between the microcontroller and the radio is via the SPI interface between both functions.

Functional Overview

The CYRF69213 is a complete Radio System-on-Chip device, providing a complete RF system solution with a single device and a few discrete components. The CYRF69213 is designed to implement low cost wireless systems operating in the worldwide 2.4 GHz Industrial, Scientific, and Medical (ISM) frequency band (2.400 GHz–2.4835 GHz).

AN86272 - PRoC™-CS Hardware Design Guidelines

Thu, 25 Apr 2013 05:48:56 -0600

Introduction

PRoC-CS is a 2.4-GHz RF solution integrated with Cypress’ capacitive touch sensing 8-bit MCU. The PRoC-CS is a complete solution featuring 32-KB flash, with support for CapSense button, slider, proximity sensors, and a GFSK radio modem which can support data rate up to 1 Mbps.

Interoperating WUSB-NL DVK (CY3668 Rev. **) with nonDVK WUSB-NL Hardware - KBA83288

Thu, 18 Apr 2013 06:34:04 -0600

Answer: WUSB-NL DVK is intended for use with the WUSB-NL modules supplied with the kit. If you need to use this kit with any other WUSB-NL-based device, the WUSB-NL module must be modified. Follow the instructions provided in this article to modify the module.

Note The WUSB-NL radio module provided with CY3668 Rev. *A does not require these modifications.

CAUTION

ANY CHANGE TO THE MODULE HAS TO BE CARRIED OUT BY A PERSON QUALIFIED IN REPLACING CHIP COMPONENTS.
USE ESD PROTECTION WHILE CARRYING OUT THE MODIFICATION.
USE TEMPERATURE-CONTROLLED SOLDERING STATION (RECOMMENDED).

INSTRUCTIONS TO MODIFY WUSB-NL MODULES
Perform the following changes on both the WUSB-NL modules:

Replace the existing capacitor at location C7 with a 33-pF, 0603 size capacitor
Replace the existing capacitor at location C8 with a 27-pF, 0603 size capacitor

Figure 1. WUSB-NL Module and Location of C7 and C8

Cypress recommends the following parts from Murata for this purpose:

33-pF capacitor : GRM1885C1H330JA01D
27-pF capacitor : GRM1885C1H270JA01D

After you complete these changes, the WUSB-NL modules are ready to interoperate with any nonDVK hardware.

INTEROPERATING WITH NON DVK WUSB-NL HARDWARE

For a modified WUSB-NL module to interoperate with nonDVK hardware, the firmware running on both hardware must be compatible.For this reason you must port the WUSB-NL driver provided with CY3668 Rev. ** to the nonDVK hardware before initiating data communication between them. If your application requires AgileHID protocol, you must port the AgileHID protocol provided with CY3668 Rev. ** DVK to the nonDVK hardware as well. Alternatively, you can also port the firmware (WUSB-NL driver and AgileHID protocol) running on the nonDVK hardware to CY3668 Rev. ** DVK.

USB & Wireless/RF Kits

Tue, 16 Apr 2013 09:49:33 -0600

Kit Classification

Cypress offers a wide range of kits to help you develop with Cypress parts. The ultimate goal is to get you to market faster - with minimum risk - by reducing learning and development time. Cypress USB and Wireless/RF kits fall into one of the following categories:

Development Kits (DVKs)

First Touch Kits (FTKs)

Reference Design Kits (RDKs)

Programmers

Debugger

Emulation Kit (POD)

Kit Selection

Development Kits

Reference Design Kits

First Touch Kits

Programmers

Debuggers

Emulation Kit/Pod

Third Party Kits

Documentation

Application Notes

Support

Do you need support from a technical expert? File a technical support case.

Or Call 1-800-541-4736 and select option 8.

Antenna Type and Location for WUSB-NL - KBA83398

Mon, 15 Apr 2013 00:35:13 -0600

Answer: The most significant factor affecting RF performance for the CYRF8935 or any other over-the-air RF device is the antenna type, placement, and orientation. Antenna gain is normally measured with respect to isotropic, that is, an ideal radiator that sends or receives power equally to or from any direction. An ideal antenna choice for most low-power, short-range wireless applications, is the isotropic reference antenna. Unfortunately, these do not exist in practice. However, you should take care when placing the antenna, because dipole antennas have a radiation pattern where the null can be very deep.

For best operation, design the product so that the main antenna radiation is away from the body or at least not proximity-loaded by the human body or dielectric objects within the product.

Remember to keep the antenna away from clock lines, digital bus signals, and power supply; otherwise, harmonics of the clock frequency will jam certain receive frequencies.

Recommendations for PCB Layout for WUSB-NL - KBA83397

Mon, 15 Apr 2013 00:35:01 -0600

Answer:

RF path: Adhere closely to the recommended reference design circuit (Refer TRM, FIGURE-3.1)
Clock traces: Keep the quartz crystal traces simple and direct. The self-bias resistor should be close to the XTALi and XTALo pins. The oscillation loop, consisting of the series resistor and crystal, should be a simple, small loop. The crystal-loading capacitors should be near the crystal. The ground connection to these capacitors must be good, clean, and quiet. This prevents noise from being injected into the oscillator. It is best to have one ground plane for the entire RF section. Do not keep any unwanted trace below the crystal. The crystal and the associated components should be kept as close as possible to the IC pins (XTALOUT and XTALIN) to keep stray capacitance as minimum.
Power distribution and decoupling: Capacitors should be located near the VDD pins, as shown in Typical Application on page 13 of the WUSB-NL TRM.
Antenna placement: When using an antenna, follow the manufacturer's recommendation regarding layout.
Digital interface: The digital interface should be routed with a solid ground reference, to have a good return path you need a good grounding between RF and MCU that can help reduce noise 'seen' at the antenna, thus improving performance.

Product Selector Guide (PSG) - Wireless/RF

Tue, 09 Apr 2013 03:38:15 -0600

Cypress wireless solutions share the unique qualities of ultra-reliable and low-power and are designed for a variety of end-applications.

CE58786 - Implementing Pin Specific Interrupts in enCoRe™ II / enCoRe II LV

Fri, 22 Mar 2013 00:40:44 -0600

This Code Example demonstrates how to use the dedicated pin GPIO interrupt INT0. When a switch connected to the port pin corresponding to INT0 (P0.2) is pressed, an LED connected to P1.3 glows. This Code Example was developed for CY7C60123-PVXC.

Compatibility between the WirelessUSB™-NL Radio Modules Provided with CY3668 Rev. ** and CY3668 Rev. *A - KBA86365

Wed, 20 Mar 2013 04:05:28 -0600

Answer: No, the WirelessUSB-NL radio module provided with the CY3668 Rev. ** kit is not compatible with the equivalent radio module provided with CY3668 Rev. *A. Do not use these two radio modules together for wireless application development. You can use only the modules provided with same version of the kit.

However, you can make the two radio modules compatible by replacing the passives C7 and C8 on the radio module provided with the Rev. ** kit. For more information on how to do this modification, see KBA83288.

Note: You can identify the CY3668 kit revision by the sticker attached behind the kit box. Similarly, you can identify the radio module provided with the CY3668 Rev *A kit by the sticker attached behind the module.

Figure 1. CY3668 Kit Revision

Figure 2. CY3668 Rev. *A Radio Module

CYRF69103: Programmable Radio on Chip Low Power

Mon, 18 Mar 2013 07:35:48 -0600

Programmable Radio on Chip Low Power

PRoC™ LP Features

Single Device, Two Functions
Flash Based Microcontroller Function
Industry leading 2.4 GHz Radio Transceiver Function
Component Reduction
Flexible I/O
Operating Voltage from 1.8 V to 3.6 V DC
Operating Temperature from 0 to 70 °C
Pb-free 40-pin QFN Package
Advanced Development Tools based on Cypress’s PSoC® Tools
For more,see pdf

Functional Overview

The CYRF69103 is a complete Radio System-on-Chip device, providing a complete RF system solution with a single device and a few discrete components. The CYRF69103 is designed to implement low cost wireless systems operating in the worldwide 2.4 GHz Industrial, Scientific, and Medical (ISM) frequency band (2.400 GHz to 2.4835 GHz).

CYRF7936: 2.4-GHz CyFi™ Transceiver

Mon, 11 Mar 2013 04:46:09 -0600

2.4-GHz CyFi™ Transceiver

Features

2.4-GHz direct sequence spread spectrum (DSSS) radio transceiver
Operates in the unlicensed worldwide industrial, scientific, and medical (ISM) band (2.400 GHz to 2.483 GHz)
21-mA operating current (transmit at –5 dBm)
Transmit power up to 4 dBm
Receive sensitivity up to –97 dBm
Sleep current less than 1 μA
DSSS data rates up to 250 kbps, Gaussian frequency-shift keying (GFSK) data rate of 1 Mbps
Low external component count
Auto transaction sequencer (ATS) - no MCU intervention
For more, see pdf

Functional Overview

The CYRF7936 IC is designed to implement wireless device links operating in the worldwide 2.4-GHz ISM frequency band. It is intended for systems compliant with worldwide regulations covered by ETSI EN 301 489-1 V1.41, ETSI EN 300 328-1 V1.3.1 (Europe), FCC CFR 47 Part 15 (USA and Industry Canada), and TELEC ARIB_T66_March, 2003 (Japan).

WirelessUSB NL Radio Driver

Mon, 11 Mar 2013 01:17:59 -0600

The WUSB-NL radio driver provides users with a consistent interface to the enCoRe II, enCoRe III and enCoRe V microcontrollers. The driver is written in M8C assembly for maximum space efficiency and performance and is targeted for use with PSoC Designer 5.3 and the Imagecraft compiler v7.0.5. The WUSB-NL radio driver is designed to interface with applications written in both ANSI C and M8C assembly.

Please refer to "Cypress WUSB-NL Driver - Release Notes" document for detailed instructions to upgrade your current driver to this release.

Please contact wusbnl@cypress.com for any help.

Introduction to PRoC™-UI

Mon, 04 Mar 2013 11:40:11 -0600

CY3668 WirelessUSB NL Development Kit

Fri, 01 Mar 2013 18:51:50 -0600

Overview

CYRF8935 WirelessUSB NL is Cypress’s third generation of 2.4 GHz low-power RF technology, bringing next level of low-power performance into a small 4 mm x 4 mm footprint. WirelessUSB NL implements a GFSK radio using a differentiated single-mixer, closed-loop modulation design that optimizes power ef_ciency and interference immunity. This also translates into the highest on-air throughput which makes WirelessUSB NL particularly powerful for streaming applications such as audio, along with HID applications such as wireless keyboards, mice and USB dongles.

The CY3668 WirelessUSB NL development kit provides a generic platform for developing wireless applications based on the WirelessUSB NL, enCoRe II and enCoRe V devices. The out-of-box examples that come with this kit also demonstrates the new enhanced agile HID protocol for secure and reliable wireless data transfers.

Kit Contents:

CY3668 bridge/keyboard development boards (2)
NL modules (2)
CY3668- enCoRe II module (1)
CY3668-enCoRe V modules (2)
3.3-V LCD (2)
Power adaptor (2)
Quick Start Guide
Resource CD which includes, PSoC Designer, PSoC Programmer, Projects and documentation.

Software Title	Description	Link
PSoC Designer	This kit requires PSoC Designer for development
PSoC Programmer	This kit requires PSoC Programmer for programming

AN72428 - Schematic Review Checklist for WirelessUSB™ NL

Thu, 07 Feb 2013 20:55:15 -0600

Introduction

WirelessUSB NL enables a Gaussian frequency-shift keying (GFSK) radio by using a differentiated single-mixer, closed-loop modulation design that optimizes power efficiency and interference immunity. Closed-loop modulation effectively eliminates the problem of frequency drift, which enables WirelessUSB NL to transmit up to 255-byte payloads without repeatedly having to pay power penalties for relocking the phase-locked loop (PLL) as in open-loop designs.

Wireless USB Cuts the Cord for Multipoint-to-Point Systems

Fri, 25 Jan 2013 00:36:33 -0600

Wireless Design and Development (USA)

wirelessdesignmag.com

Today, along with wireless USB there are a number of other wireless options available - each suited to a different type of traffic." Existing low-cost RF transceivers typically use the 27 MHz, 433 MHz, 868 MHz, or 900 MHz frequency ranges. In the 2.4 GHz and 5.4 GHz frequency ranges, there are options such as various renditions of 802.XX and Bluetooth.

Crossing the three spectrums is ZigBee (868 MHz, 915 MHz, and 2.4 GHz). For non-network, multipoint-to-point applications, there is wireless USB in the 2.4 GHz range (See Table 1). Another alternative is infrared...

CY4638 WirelessUSB(TM) LP VoIP Demo Kit

Tue, 15 Jan 2013 05:37:37 -0600

WirelessUSB LP VoIP demo kit provides a smart implementation of low power, low cost, duplex wireless headset to a single wireless receiver. The kit combines Cypress's WirelessUSB LP radio system-on-chip and enCoRe(TM) (Enhanced Component Reduction) micro controllers with Winbond's W681360, 13 bit low power CODEC to implement clean signal quality and production-ready, 2.4GHz wireless VoIP headset system.

Source code schematics and gerber file documentation for easy design provided.

Kit Contents:

WirelessUSB Headset Board - Innovative dual antenna design for range and robustness. Uses Cypress WirelessUSB LP (CYRF6936), Wireless enCoRe II (CY7C60323) flash MCU and Winbond (W681360) 3V Single-Channel CODEC.
WirelessUSB Full-Speed USB Bridge - Simple and small formfactor bridge. Uses WirelesUSB LP (CYRF6936) and enCoRe III (CY7C64215) USB flash MCU
WirelessUSB LP VoIP Demo Kit CD-ROM - Provides kit documentation, hardware schematics, bill of materials and firmware for Wireless VoIP headset design.
Other - Mono Headset, Battery charger and USB extension cable for the bridge.

Key Features

Headset with antenna diversity for maximizing range and robustness
Duplex voice sampling at 8KHz with clean signal quality
Over 8hrs of talk time between re-charging

Partner Name: Winbond

Partner Parts Supported: Winbond CODEC W681360

CY3660 enCoRe V / LV Development Kit

Tue, 15 Jan 2013 03:15:33 -0600

The enCoRe™ V development system, based on the highly refined PSoC®; (Programmable System-on-Chip™) tools, supplies the user with an in-circuit emulator (ICE) that works in conjunction with actual silicon to provide an accurate and efficient development system. The PSoC Designer™ software consists of a graphical user interface, assembler, C compiler, linker and debugger for a highly integrated code development environment. A compliant Full-Speed USB "User Module" along with other peripheral User Modules simplifies the learning curve and speeds development time.

Application:

Wireless Dongles
Laser Mice
Gaming Keyboards
Gaming
Point-of-Sale Devices

Key Features:

Hardware Description:

This development kit includes:

Two DVK Boards (enCoRe V and enCoRe V LV development boards)
Two LP Radio Modules (2.4 GHz wireless modules using Cypress’s WirelessUSB LP radio)
Two 12V Power Supplies
PSoC MiniProg (for programming the onboard On-Chip-Debugger (OCD) chips)
CD-ROM
USB Type A to Mini-B Cable
Wire Pack
LCD Module
CY3210-MPAdapter
PSoC Designer software development tool with complete set of User Modules
Four firmware examples with compete source code

CY3631 WirelessUSB(TM) Manufacturing Test Kit

Tue, 15 Jan 2013 02:57:47 -0600

The CY3631 WirelessUSB(TM) Manufacturing Test Kit (MTK) is an automated platform that enables customers to quickly test their WirelessUSB-enabled products without the need for expensive RF test equipment. An efficient, cost-effective methodology to reduce defect rate and enhance end-customer satisfaction, the MTK provides developers with the necessary intellectual property and a portion of the hardware to test wireless devices, without needing any prior radio experience.

The MTK allows developers to seamlessly conduct testing in a manufacturing environment. The kit is designed to be integrated into the test flow and simulate a limit-of-operation condition using shielded Test Fixture and enclosure, preventing interference between multiple units that may be on the test floor simultaneously.

An industry's first, the CY3631 takes the headaches out of RF fabrication, improves manufacturing productivity, and ensures outgoing quality.

Hardware Description

The MTK contains the following items:

MTK Test Fixture
12" SMA to SMA coaxial cable
24" SMA to SMA coaxial cable
SMA-F to SMA-F adapter
(6) Fixed 50 ohm attenuators, various values
SMA 2.4GHz antenna
Power supply transformer
CD-ROM with firmware source and documentation

Not included but required for use are the Device Under Test (DUT) and an anechoic RF test chamber, sized appropriately for the DUT, with SMA pass-through connectors.

Optional, not included, equipment includes:

A variable 50-ohm attenuator for calibration
An SMA torque wrench
A computer to download configuration and/or test start commands and, optionally, log test results
An RS-232 serial cable or USB-to-serial adapter cable for connecting the computer to the 9-pin D connector of the MTK Test Fixture

CYRF89435: PRoC™ - CapSense®

Tue, 08 Jan 2013 04:12:42 -0600

PRoC-CS Features

Single Device, Two functions
Wide operating range: 1.9 V to 3.6 V
Powerful Harvard-architecture processor
Temperature range: 0 °C to +70 °C
Flexible on-chip memory
Precision, programmable clocking
Programmable pin configurations
Versatile analog system
Additional system resources
Complete development tools
Package option
For more, see pdf.

PSoC® Functional Overview

The PSoC family consists of on-chip controller devices, which are designed to replace multiple traditional microcontroller unit (MCU)-based components with one, low cost single-chip programmable component. A PSoC device includes configurable analog and digital blocks, and programmable interconnect. This architecture allows the user to create customized peripheral configurations, to match the requirements of each individual application. Additionally, a fast CPU, flash program memory, SRAM data memory, and configurable I/O are included in a range of convenient pinouts.

AN79455 - Getting Started with WirelessUSB™-LP Radio and enCoRe™ V LV

Fri, 04 Jan 2013 01:48:04 -0600

It explains how to use PSoC® Designer™ 5.2 software to configure the ADC, LCD, and SPI User Modules with an enCoRe V LV device. Attached code examples demonstrate how to use the WirelessUSB LP Radio driver APIs and PSoC library APIs for a wireless data exchange application.

Introduction

In this application note, we use a CY3660 Development Kit (DVK) to demonstrate wireless data exchange between two enCoRe™ V LV devices each using the WirelessUSB™-LP Radio. The CY3660 DVK includes two enCoRe V LV development boards, each with a WirelessUSB-LP radio. With the PSoC® Designer™ projects attached to this application, we configure one board for data transmission and the second board for data reception.

AN83281 - Developing RF-Based Remote Control Using WirelessUSB™-NL

Wed, 02 Jan 2013 01:07:33 -0600

The resulting application overcomes the major shortcomings of IR-based remote control. Included in the application note are descriptions of the system architecture and associated functional modules and PSoC projects.

Introduction

This application note focuses on an RF-based remote control device operating over the 2.4-GHz ISM (industrial, scientific, and medical) band. Because it uses Cypress’s proprietary WirelessUSB-NL radio, the device overcomes the following shortcomings of IR-based remote control:

line-of-sight pointing
limited operating angles
short transmission range
reflection problems
high current consumption

Demo: Wireless Keyboard using WirelessUSB™-NL Development Kit (DVK)

Mon, 17 Dec 2012 23:07:35 -0600

CyFi™ Star Network Protocol on PSoC^® 3 and PSoC 5

Mon, 17 Dec 2012 02:11:51 -0600

WUSB-NL Radio Driver API Guide

Wed, 12 Dec 2012 01:38:43 -0600

The WUSB-NL radio driver provides users with a consistent interface to the WUSB-NL radio. The driver is designed to interface with both C and M8C assembly written applications and consists of the following files:

Nlradio.asm
Nlradio.h
Nlradio.inc
Nlspi.asm

This document describes the APIs exposed by the WUSB-NL driver.

The WUSB-NL radio driver is used in wireless mouse, keyboard, and bridge application software stacks. The WUSB-NL radio driver is modular and can be used as a library. The API exported by this module is explained in this document.

User Module Datasheet: SPI Master Datasheet SPIM V 1.20 (CY7C639/638/633/602/601xx, CYRF69xx3)

Fri, 23 Nov 2012 01:19:19 -0600

Features and Overview

Supports Serial Peripheral Interconnect (SPI) Master protocol
Supports SPI clocking modes 0, 1, 2, and 3
Programmable interrupt on SPI-done condition
SPI Slave devices can be independently selected

The SPIM User Module is a Serial Peripheral Interconnect Master. It performs full duplex synchronous 8- bit data transfers. SCLK phase, SCLK polarity, and LSB First can be specified to accommodate most SPI clocking modes. Controlled by user supplied software, you can configure the slave select signal to control one or more SPI Slave devices.

The SPI User Module also supports two wire serial devices such as optical mouse sensors that employ an SDIO/SCK interface.

How to Configure the CyFi Protocol Data Rate in CY3271 Kit - KBA84673

Thu, 22 Nov 2012 03:09:01 -0600

Answer: You control the CyFi protocol data rate by changing the time gap between consecutive data packets transmitted from the RF Expansion Card (FTRF) of the CY3271 kit. This time gap is the Report Interval and the kit supports these values for the report interval

1 second
5 seconds
30 seconds
1 minute
5 minutes

For example, when the report interval is 30 seconds, a data packet is sent once every 30 seconds. The size of the data packet is uniform (7 bytes) for all five report interval values. The lowest report interval (1 second) gives you the fastest data rate.

The firmware changes its current report interval value to next value when the SW2 button on RF Expansion Card (FTRF) is pressed for more than 2 seconds. If current report interval value is 1 second, the firmware changes it to 5 seconds. If the current report interval value is 5 minutes it rolls back and changes the report interval to 1 second.

Follow this procedure to change the report interval value:

Figure 1 RF Expansion Card (FTRF)

Press the SW2 button for more than 2 seconds
Release the button when the red LED glows continuously. When SW2 is pressed for more than 2 seconds the firmware changes the report interval to next value and lights the red LED continuously.
Look at the red LED immediately after you release the SW2 button. The red LED blinks a finite number of times to indicate the current report interval value as shown below.

#	Report Interval	Number of Red LED Blinks
1	1 second	1 time
2	5 seconds	2 times
3	30 seconds	3 times
4	1 minute	4 times
5	5 minutes	5 times

User Module Datasheet: CapSense® Sigma-Delta Datasheet CSD V 2.10 (CY8C20x66A, CY8C20x36A, CY8C20x46A, CY8C20x96A, CY8C20xx6AS, CY8C20xx6H, CY8C20XX6L, CYONS2110-LBXC, CYONSFN2053-LBXC, CYONSFN2061-LBXC, CYONSFN2151-LBXC, CYONSFN2161-LBXC, CYONSFN2162-LBXC)

Wed, 21 Nov 2012 02:24:27 -0600

Features and Overview

Implements CapSense® capacitive sensing in the CY8C20xx6A family of PSoC® devices using sigma-delta data conversion.
Configurable system parameters allow tuning to optimize performance in a broad range of applications.
Supports up to 36 capacitive sensors and 6 sliders.
Capable of detecting touches as low as 0.1 pF, that is, detecting a finger is possible through up to 15 mm of glass or 5 mm of plastic.
High immunity to AC mains noise, other EMI, and power supply noise.
Supports capacitive sensors configured as independent buttons and/or as dependent arrays to form sliders.
Effective number of slider elements can double the number of dedicated I/O pins using diplexing technique.
Supports slider resolution greater than physical pitch through interpolation.
Shield electrode provided for reliable operation with high parasitic capacitance and/or in the presence of water film.
Guided sensor and pin assignments using the CSD Wizard.
The CY8C20045 family does not support sliders.

User Module Datasheet: Successive Approximation ADC Datasheet SAADC V 1.0 (CY7C603xx)

Wed, 07 Nov 2012 01:44:08 -0600

Features and Overview

8-bit resolution
Sample rates up to 100 sps
Input range depends on CPU Clock

The SAADC implements a simple ADC which does not require a Digital Block to operate.

Note: The SAADC has 8 bits of resolution with 1% error if placed in analog column 0. When placed in analog column 1 the error is 4%.

User Module Datasheet: Shadow Registers Datasheet ShadowRegs V 1.1 (CY8C20x34/36, CY8C21x12, CY8C29/27/24/22/21xxx, CY8C20336AN/436AN/636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46/96, CY8C20045/55, CY7C64215/343, CY7C60413, CY7C603xx, CY8CLED02/04/08/16, CY8CLED0xD/G, CY8CTST110/120/200, CY8CTMG110/120, CY8CTMG2xx, CY8CTMA120/30xx, CY8C28x45, CY8CPLC20, CY8CLED16P01, CYONS2010/11, CYONSFN2051/53/61, CYONSFN2151/61/62, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC)

Tue, 23 Oct 2012 06:43:00 -0600

Features and Overview

Provides a global shadow register for a selected port data register
Generates a set of macros for port pin manipulation
Prevents corruption of GPIO pin settings during CPU control of GPIO
Cooperates with other user modules that allocate shadow registers.

The ShadowRegs user module creates a RAM variable (the shadow register) that caches values written to a port data register (PRTxDR). Using a shadow register enables CPU control of an individual GPIO output pin without the risk of corrupting the settings of other GPIO pins sharing the same port.

User Module Datasheet: I2C Bootloader Datasheet BootLdrI2C V 2.50 (CY7C604xx, CY7C643xx, CY8C20xx6/A/AN/AS/L/H, CY8C20xx7/S, CY8CTST200, CY8CTMG200, CY8CTMA300, CYONS2xxx, CYONSCN2xxx, CYONSFN2xxx, CYONSKN2xxx, CYONSTB2xxx, CYONSTN2xxx, CYRF89x35)

Mon, 22 Oct 2012 20:54:46 -0600

Features and Overview

Industry standard Philips I2C bus compatible interface.
Enables you to reprogram a PSoC device using the I2C system bus instead of in-system programming pins.

The I2C Bootloader User Module implements a bootloader that can reprogram the PSoC device over the I2C interface. The PSoC device already gives an in-system serial programming interface (ISSP) that allows downloading new code into the device. However, the bootloader allows a code update to occur through an industry standard communication interface, such as I2C.

User Module Datasheet: WirelessUSB™ NL Radio Datasheet WUSB_NL V 2.00 (CY7C60123-PVXC, CY7C60223-QXC, CY7C60223-SXC, CY7C63801-SXC, CY7C63803-SXC, CY7C63813-PXC, CY7C63813-SXC, CY7C63823-XC, CY7C63823-QXC, CY7C63823-SXC, CY7C63833-LTXC, CYRF89x35, CY7C60413-16LKXC, CY7C60445-32LQXC, CY7C60455-48LTXC, CY7C60456-48LTXC, CY7C64315-16LKXC, CY7C64316-16LKXC, CY7C64343-32LQXC, CY7C64345-32LQXC, CY7C64355-48LTXC, CY7C64356-48LTXC)

Mon, 22 Oct 2012 06:10:28 -0600

Features and Overview

The SPI-based WUSB_NL User Module is a firmware interface to the CYRF8935 WirelessUSB NL radio modem hardware.

Typical transmit power: 0 dBm
Packet framer with 64-byte first in first out (FIFO) data buffer
Auto-retry-acknowledge protocol to simplify usage
Cyclic Redundancy Check (CRC)
Forward Error Correction (FEC)
Supports up to 4 Mbps SPI bus baud rate
Digital readout of received signal strength indication (RSSI)

Functional Description

The WUSB_NL User Module can be used as a base for developing proprietary wireless protocols. The WUSB_NL User Module application programming interface (API) provides functions that can be called from both C and assembly to start the radio, send and receive data, change channels, change transmit power, and more.

The WUSB_NL User Module offers hardware SPI interface, initialization, configuration, and communication functions for interfacing with an NL radio.

CY4636 WirelessUSB LP (TM) Keyboard-Mouse Reference Design Kit (Version 1.0) (OBSOLETE)

Fri, 19 Oct 2012 02:15:45 -0600

This development kit is no longer available. This web page has been left in place for informational purposes only.

WirelessUSB-LP RDK (CY4636) provides an exemplary implementation of a 2:1, bi-directional Wireless desktop keyboard and mouse to single wireless receiver. The RDK will help jump-start your Keyboard and Mouse development using WirelessUSB-LP (CYRF6936) Radio System on Chip.

WirelessUSB LP RDK (CY4636) provides an exemplary implementation of a 2:1, bi-directional Wireless desktop keyboard and mouse to single wireless receiver. The RDK will help jump-start your Keyboard and Mouse development using WirelessUSB LP (CYRF6936) Radio System on Chip. WirelessUSB LP is the next generation WirelessUSB device, with high data throughput and low power designed to operate in 2.4 GHz ISM band. WirelessUSB LP has many powerful features that allow users to create never before seen radio applications.

Schematics, source code, firmware and RF gerber files are provided as an accelerated starting point for PC Human Interface Devices (HID) designers wishing to cut the cord on their HID applications.

WirelessUSB RDK Keyboard - The RDK keyboard is a 101-key Keyboard with multimedia keys (internet, mail etc) and power keys.
WirelessUSB RDK Mouse - The RDK mouse is a three-button optical mouse with scroll wheel. The mouse uses Agilent 3040 optical sensor.
WirelessUSB RDK Bridge/Dongle - The RDK bridge supports both the RDK Keyboard and Mouse. The RDK uses Cypress's famous KISSBind(TM) for binding the Keyboard and Mouse to the dongle.
WirelessUSB LP RDK CD-ROM - The CD contains the documentation, example code and hardware design files - everything you need to design a wireless keyboard and mouse.

Key Features

2.4-GHz unlicensed ISM band for worldwide deployment
Over 10-meter wireless operation
Up to 1 Mbps bidirectional wireless connectivity
Around 1 ms typical latency
Over 1 year of battery life under normal usage models
Interference avoidance technology for robust operation in close proximity of 2.4-GHz wireless technologies like Wi-Fi(R) and Bluetooth(R)
2.4-GHz DSSS radio WirelessUSB protocol, enabling co-location of hundreds of WirelessUSB systems for office and classroom deployment
Signal strength/battery life indicator software utility
Precise optical navigation technology-smooth and accurate surface navigation
USB plug 'n play - no new software drivers required

Hardware Description

This reference design kit includes:

CYRF6936 WirelessUSB LS transceiver
ADNS-3040 optical sensor mouse
WirelessUSB LS 101 multimedia keyboard
Small form factor bridge
Batteries
CD-ROM containing the following:
- Signal strength/battery life indicator software utility
- Firmware source code
- Firmware design notes
- Cypress and Agilent data sheets
- Application notes
- Hardware Bill of Materials
- Hardware Gerber files
- Hardware schematics

Wireless Keyboard Design - KBA82952

Fri, 19 Oct 2012 01:03:15 -0600

Answer: Cypress provides a portfolio of low cost, low power, and high performance solutions for wireless keyboards. The portfolio consists of HID optimized MCU and radio products. The solution is complemented by the mature and field proven AgileHID protocol that reduces design effort and ensures swift time to market.

There are two types of solutions available for a wireless keyboard design:

2-chip solutions: separate MCU and RF ICs
Single-chip solution: combing RF and MCU in a single chip

The following table lists Cypress’s wireless keyboard portfolio. Based on the required features of the solution, the relevant products can be chosen for the design.

S.No	Features	MCU		RF		Single chip solution
S.No	Features	enCoRe II LV	enCoRe V LV	WUSB-LP	WUSB-NL	PRoC LP
1	Battery Monitoring support	X	√	√	√	X
2	Chip on board support	√	√	√	√	X
3	Ultra low power	X	√	X	√	X
4	Trackball Keyboard support	X	√	√	√	X
5	GFSK based interference immunity			√	√	√
6	DSSS based super strength interference immunity			√	X	√

Cypress’s Portfolio to Support a Presenter’s Design - KBA82956

Fri, 19 Oct 2012 00:50:27 -0600

Answer: Cypress provides a portfolio of low cost, low power, and high performance solutions for wireless presenters. The portfolio consists of HID optimized MCU and radio products. The solution is complemented by the mature and field proven AgileHID protocol that reduces design effort and ensures swift time to market.

There are two types of solutions available for a wireless presenter design:

2-chip solutions: separate MCU and RF ICs
Single-chip solution: combing RF and MCU in a single chip

The following table lists Cypress’s wireless presenter portfolio. Based on the required features of the solution, the relevant products can be chosen for the design.

S.No	Features	MCU			RF		Single chip solution
S.No	Features	enCoRe II LV	enCoRe III LV	enCoRe V LV	WUSB-LP	WUSB-NL	PRoC LP
1	Single chip solution	X	X	X	X	X	√
2	Chip on board support	√	√	√	√	√	X
3	Battery Monitoring support	X	√	√	√	√	X
4	Ultra low power	X	X	√	X	√	X
5	GFSK based interference immunity				√	√	√
6	DSSS based super strength interference immunity				√	X	√
7	Short Range ~30m	√	√	√	√	√	√
8	Long Range ~100m	√	√	√	√	X	√

Cypress’s Portfolio to Support RF Remote Design - KBA82958

Fri, 19 Oct 2012 00:30:10 -0600

Answer: Cypress provides a portfolio of low cost, low power, and high performance solutions for RF remote controllers. The solutions provide simultaneous support for RF and legacy IR operations. The portfolio features low power (can support >100,000 button presses with single coin cell battery), reduced BOM, battery management support up to 30 meter range, and operation at angles up to 60 degrees. In addition, enCoRe MCUs feature an 8-bit RISC core with flash memory, low power, and a variety of internal peripheral functions.

There are two types of solutions available for RF remote control design:

2-chip solutions: separate MCU and RF ICs
Single-chip solution: combing RF and MCU in a single chip

The following table lists Cypress’s RF remote control portfolio. Based on the required features of the solution, the relevant products can be chosen for the design.

S.No	Features	MCU			RF		Single chip solution
S.No	Features	enCoRe II LV	enCoRe III LV	enCoRe V LV	WUSB-LP	WUSB-NL	PRoC LP
1	Ultra Low power	X	X	√	X	√	X
2	Chip on board support	√	√	√	√	√	X
3	RF Protocol support	√	√	√	√	√	√
4	Button Support	√	√	√	√	√	√
5	Keyboard Support	√	√	√	√	√	√
6	QWERTY keyboard support	X	X	√	√	√	X
7	Battery Monitoring support	X	√	√	X	√	X
8	GFSK based interference immunity				√	√	√
9	DSSS based super strength interference immunity				√	X	√
10	Short Range ~30m	√	√	√	√	√	√
11	Long Range ~100m	√	√	√	√	X	√

Wireless Mouse Design - KBA82950

Thu, 18 Oct 2012 23:58:16 -0600

Answer: Cypress provides a portfolio of low cost, low power, and high performance solutions for wireless mice. The portfolio consists of HID optimized MCU and radio products. The solution is complemented by the mature and field proven AgileHID protocol that reduces design effort and ensures swift time to market.

There are two types of solutions available for a wireless mouse design:

2-chip solutions: separate MCU and RF ICs
Single-chip solution: combing RF and MCU in a single chip

The following table lists Cypress’s wireless mouse portfolio. Based on the required features of the solution, the relevant products can be chosen for the design.

S.No	Features	MCU			RF		Single chip solution
S.No	Features	enCoRe II LV	enCoRe III LV	enCoRe V LV	WUSB-LP	WUSB-NL	PRoC LP
1	Single chip solution	X	X	X	X	X	√
2	Chip on board support	√	√	√	√	√	X
3	Ultra low power	X	X	√	X	√	X
4	Battery Monitoring support	X	√	√	√	√	X
5	Gaming mouse features	X	X	X	√	√	X
6	GFSK based interference immunity				√	√	√
7	DSSS based super strength interference immunity				√	X	√

Cypress’s Portfolio to Support a Dongle Design - KBA82953

Thu, 18 Oct 2012 23:34:45 -0600

Answer: Cypress provides a portfolio of low cost, low power, and high performance solutions for wireless dongles. The portfolio consists of HID optimized MCU and radio products. The solution is complemented by the mature and field proven AgileHID protocol that reduces design effort and ensures swift time to market.

There are two types of solutions available for a wireless dongle design:

2-chip solutions: separate MCU and RF ICs
Single-chip solution: combing RF and MCU in a single chip

The following table lists Cypress’s wireless dongle portfolio. Based on the required features of the solution, the relevant products can be chosen for the design.

S.No	Features	MCU			RF		Single chip solution
S.No	Features	enCoRe II	enCoRe III	enCoRe V	WUSB-LP	WUSB-NL	PRoC LP
1	Gaming Solution support	X	√	√	√	√	X
2	Chip on board support	√	√	√	√	√	X
3	Nano dongle support	√	X	√		√	X
4	GFSK based interference immunity				√	√	√
5	DSSS based super strength interference immunity				√	X	√

Different Kinds of Binding Mechanisms Supported by WUSB-NL - KBA82959

Thu, 18 Oct 2012 06:32:31 -0600

Answer: Binding is a mechanism used to associate the wireless devices (mouse /keyboard) to a dongle. The most common types of binding are described below:

Button Bind

In this type of binding, a separate bind button is provided for dongle and device. Binding takes place once the bind button is pressed on both dongle and device side. At the end of binding device stores unique ID of dongle in the flash. On subsequent power-on, device uses the stored unique ID of dongle for data transfer. Bind button can be used again to bind a different evice to the same dongle or vice versa.

Advantage	Disadvantage
Possibility of device wrongly binding to a different dongle is very less.	Increase in cost due to additional hardware circuitry needed for bind switch on both device and dongle. It is difficult to provide a bind switch in nano-dongle.

Power Bind

In this type of binding there will not be a separate bind button in dongle or device. After power on, dongle goes to bind state if both keyboard and mouse are not bound. If one of the devices is bound then dongle will be in bind state for a period of 8 (configurable) sec and then move to Operating/Idle state. Once device is in Operating/Idle state, no device can be bound. To bind again, dongle power needs to be reset.

Power bind con be made conditional too. In this case, it will go to binding mode on power on only if some condition (for example, a set of buttons pressed concurrently) is met.

Advantage	Disadvantage
No additional hardware circuitry required resulting in reduced cost. Simple to implement. If manufacturer wants to associate a dongle to a single device (like mouse) then binding is same as enhanced KISS bind.	If dongle is bound only to one device and if second device required to be bound then power to dongle needs to be reset. This would cause inconvenience to user.

Factory set Bind

For factory set binding, unique ID of Dongle is read from PC using proprietary tool and stored in device flash. Device by default will be bound with specific dongle.

CY4672 PRoC™ LP Reference Design Kit

Thu, 18 Oct 2012 01:58:04 -0600

PRoC LP RDK (CY4672) provides an exemplary implementation of a low-power, 2.4 GHz bi-directional wireless keyboard, mouse, and USB bridge based on Cypress' PRoC LP single-chip MCU 2.4 GHz transceiver. Schematics, source code, firmware and RF gerber files are provided as an accelerated starting point for PC Human Interface Devices (HID) designers wishing to cut the cord on their HID applications.

PRoC LP Mouse - The RDK mouse is a three-button optical mouse with scroll wheel. Based on the CYRF69103 PRoC LP for Peripherals and the Avago 3040 optical sensor.

WirelessUSB LP Keyboard - The RDK keyboard is a 101-key keyboard with multimedia keys (internet, mail etc) and power keys. Features AES 128-bit encryption and bi-directional communication for toggling CAPS LOCK and NUM LOCK LEDs. Based on the CYRF6936 WirelessUSB LP radio SoC and CY7C60123 Wireless enCoRe II MCU.

PRoC LP Bridge/Dongle - A single-chip USB bridge based on the CYRF69213 PRoC LP for Bridges. Features support for Microsoft Windows Vista HotStart (Direct Application Launch) via two dedicated IOs.

WirelessUSB LP RDK CD-ROM - The CD contains the documentation, example code and hardware design files - everything you need to design a wireless keyboard and mouse.

In the latest update, Cypress introduced an upgraded version of its wireless protocol incorporating Dynamic Data Rate (DR) and Dynamic Power Amplification (PA) features. This new version AgileHID(TM) wireless protocol is specifically designed to overcome interference from emerging 802.11n networks, which, along with cordless phones, microwaves and other devices in the 2.4 GHz band, can severely hamper the performance of wireless peripherals. Cypress' Best-in-Class protocol will help our customers' products be prepared for 802.11n interference.

Key Features

2.4 GHz unlicensed ISM band for worldwide usage
10 m wireless range
Up to 1 Mbps bidirectional wireless connectivity
Over 1 year of battery life for both mouse and keyboard
AgileHID protocol, with hardware-assisted interference avoidance algorithms for robust operation in close proximity of 2.4 GHz wireless technologies like WiFi(R) and Bluetooth(R)
Frequency and DSSS PN code diversity to support the simultaneous co-location of hundreds of PRoC LP-based keyboard and mouse systems.
Cypress' patented KISSBind buttonless-bind technology
128-bit AES encryption
Firmware and hardware support for Microsoft Windows Vista HotStart (Direct Application Launch)
Signal strength/battery life indicator software utility
Precise optical navigation technology-smooth and accurate surface navigation
USB plug 'n play - no new software drivers required

Hardware Description

This reference design kit includes:

PRoC LP-based mouse with ADNS 3040 optical sensor
WirelessUSB LP 101 multimedia keyboard
PRoC LP-based small form-factor USB bridge
Batteries
CD-ROM containing the following:
- Signal strength/battery life indicator software utility
- Firmware source code
- Firmware design notes
- Cypress and Avago data sheets
- Application notes
- Hardware Bill of Materials
- Hardware Gerber files
- Hardware schematics

For programming the Wireless Keyboard, Mouse and Bridge, customers are requested to purchase CY3617 kit. For Bridge additionally, CY3655-PLG is required.

Note: To program RDK Mouse please use Miniprog3 Kit(http://www.cypress.com/?rID=38154 ). This provides 3.3 V during programming required for enCoreII MCU.Miniprog1 Supports only 5vrequired for Keyboard and Dongle.

Cypress Introduces PRoC™-UI One-Chip Solution Combining a 2.4-GHz, Low-Power Wireless Radio and Capacitive Touch

Tue, 16 Oct 2012 05:54:58 -0600

PRoC™-UI Delivers Wireless Communication, Button and Slider Replacement, And Windows 8 Gesture Support Optimized for HID Applications

SAN JOSE, Calif., October 16, 2012, – Cypress Semiconductor Corp. (NASDAQ: CY) today introduced a single-chip solution that integrates a wireless radio with touch-sensing circuitry for wireless mice, trackpads, remote controls, presenter tools, and other Human Interface Devices (HIDs). The new PRoC™-UI (Programmable Radio-on-a-Chip–User Interface) solution combines 2.4-GHz proprietary WirelessUSB™-NL Radio with Cypress’s CapSense® and TrueTouch® capacitive touch technologies. This combination enables user interface functionality in wireless devices, including gestures supported by the upcoming Windows 8 applications.

The one-chip solution also offers standard HID microcontroller functionality, effectively combining three chips into one to save BOM cost, board space, and power, while increasing reliability compared with multi-chip implementations. More information on the new device is available at www.cypress.com/go/PRoC-UI.

Cypress’s CapSense technology has replaced over 4 billion mechanical buttons worldwide, making Cypress the industry’s leading capacitive touch supplier. CapSense offers stylish interfaces, and superior reliability compared to mechanical buttons. PRoC-UI is also available with Cypress’s leading TrueTouch touchscreen technology, enabling multiple new HID use cases with multi-finger gesture recognition, including new Windows 8 gestures. The TrueTouch variant also supports customized gestures. Both CapSense and TrueTouch variants include advanced features such as proximity sensing (which allows a device to “wake up” as a hand approaches) and haptics (to give tactile user feedback).

PRoC-UI boasts an impressive -87 dBm receive sensitivity at 1 Mbps. This enhanced sensitivity enables longer range (up to 30 meters) operation and allows for lower-power transmit signals. The device features low active and standby currents, which enable longer battery life. It also offers superior performance in the presence of 2.4-GHz interference from common sources such as WiFi, Bluetooth, cordless phones, and microwaves.

“We are seeing an emerging class of applications and use cases that combine touch with wireless functionality. Cypress has integrated its market-leading user interface and wireless technologies to respond to this need,” said Jayant Somani, senior director of worldwide marketing for Cypress’s Data Communication Division. “The PRoC-UI solution delivers cost savings through integration, shorter design times, lower power, and smaller form factor. Perhaps more importantly, it allows our customers to differentiate their products in a highly competitive space.”

PRoC-UI supports Cypress’s AgileHID™ protocol that allows existing WirelessUSB-NL customers to get started quickly on their designs without any additional effort. Customers who have existing designs with WirelessUSB-NL can reuse the same dongles for new PRoC-UI based touch products. PRoC-UI comes with free software to enable end-product customization.

Customer Endorsements

“We are confident that PRoC-UI is the ideal single-chip solution for wireless, touch-based HID designs. We’re excited about building new designs with the PRoC-UI products.”
- Jonathan Lin, Product and Marketing Director, Primax

“PRoC-UI not only integrates touch and wireless into a single device, but also offers easy integration with external components. Moreover, Cypress’s excellent customer support makes designing touch-based wireless HID products simpler and faster.”
- Jim Wu, Marketing Associate Vice President, Sysgration

“With PRoC-UI, Cypress has a sure winner on their hands. We are very excited to partner with Cypress in bringing new touch-enabled wireless devices to the market.”
- Kevin Chen, Vice President, Foundata

Availability
PRoC-UI is currently sampling in 40-QFN and 68-QFN packages with volume production expected in January 2013. PRoC-UI advance datasheets, user guides, application notes, reference schematics and a video demo featuring a wireless trackpad in Windows 8 are available at www.cypress.com/go/PRoC-UI.

About Cypress
Cypress delivers high-performance, mixed-signal, programmable solutions that provide customers with rapid time-to-market and exceptional system value. Cypress offerings include the flagship PSoC® 1, PSoC 3, and PSoC 5 programmable system-on-chip families and derivatives, CapSense touch sensing and TrueTouch solutions for touchscreens. Cypress is the world leader in USB controllers, including the high-performance West Bridge® solution that enhances connectivity and performance in multimedia handsets, PCs, and tablets. Cypress is also the world leader in SRAM memories. Cypress serves numerous markets including consumer, mobile handsets, computation, data communications, automotive, industrial, and military. Cypress trades on the NASDAQ Global Select Market under the ticker symbol CY. Visit Cypress online at www.cypress.com.

# # #

Cypress, the Cypress logo, PSoC, CapSense, TrueTouch and West Bridge are registered trademarks and PRoC, WirelessUSB, and AgileHID are trademarks of Cypress Semiconductor Corp. All other trademarks are property of their owners.

User Module Datasheet: CyFi™ Star Network Protocol Stack Datasheet CYFISNP V 2.00 ( CY7C601/602xx, CYRF69x13)

Tue, 16 Oct 2012 00:50:05 -0600

Features and Overview

Protocol stack that implements node functionality to support a wireless star network consisting of one hub and up to 250 nodes
Provides reliable two way communication between a hub and node
Dynamic data rate (up to 1 Mbps) and output power according to the channel noise level and packet loss rate
Operates in the unlicensed worldwide Industrial, Scientific, and Medical (ISM) band (2.400–2.483GHz)

The CyFi™ Star Network Protocol Stack (CYFISNP) User Module is designed to address up to 250 general purpose nodes; it provides reliable two way communication between the hub and node(s). The hub is assumed to be wall powered, while the nodes may be either wall powered or powered by an alkaline (low impedance) or coin-cell (high impedance) battery.

User Module Datasheet: I2C Master Datasheet I2Cm V 1.5 (CY8C20x34/x24/x66/x36, CY8C20336AN/436AN/636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46/x96, CY7C604xx, CY7C643xx, CYONS2010/2011, CYONSFN2051, CYONSFN2053, CYONSFN2061, CYONSFN2151, CYONSFN2161, CYONSFN2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTMG2xx, CY8CTMG300, CY8CTST300, CY8CTMA140, CY8CTMA300, CY8CTMA301, CY8CTMA301D, CY8C20xx7/7S)

Mon, 15 Oct 2012 08:37:26 -0600

Features and Overview

Industry standard Philips I²C-bus compatible interface (version 2.1)
Only two pins (SDA and SCL) required to interface several slave I²C devices
Standard mode data supports rate of 100 kbits/s
High level API requires minimal user programming
Low level API provided for flexibility

The I²Cm User Module implements a master I²C device in firmware. The I²C bus is an industry standard, two-wire interface developed by Philips®. An I²C bus master may communicate with several slave devices using only two wires. The master initiates all communication on the I²C bus and supplies the clock for all slave devices. The I²Cm User Module supports speeds up to 100 kbps. Transmission speeds depend on the SysClock frequency in your global settings. Not all PSoC devices support 100 kps transmission speeds. No digital or analog user blocks are consumed with this module.

User Module Datasheet: Character LCD Datasheet LCD V 1.60 (CY8C20x34, CY8C20x24, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20x46, CY8C20x66, CY8C20xx6AS, CY8C20XX6L, CY7C643xx, CY7C604xx, CYONS2010, CYONS2011, CYONSFN2051, CYONSFN2053, CYONSFN2061, CYONSFN2151, CYONSFN2161, CYONSFN2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8C20x96, CY8CTST200, CY8CTMG2xx, CY8C20xx7/7S)

Mon, 15 Oct 2012 08:34:00 -0600

Features and Overview

Uses the industry standard Hitachi HD44780 LCD display driver chip protocol
Requires only seven I/O pins
Routines provided to print RAM or ROM strings
Routines provided to print numbers
Routines provided to display horizontal and vertical bar graphs
Uses a single I/O port

The Character LCD User Module is a set of library routines that writes text strings and formatted numbers to a common two- or four-line LCD module. Vertical and horizontal bar graphs are supported, using the character graphics feature of these LCD modules. This module was developed specifically for the industry standard Hitachi HD44780 two-line by 16 character LCD display driver chip, but will work for many other four-line displays. This library uses the 4-bit interface mode to limit the number of I/O pins required.

User Module Datasheet: SPI Master Datasheet SPIM V 3.00 (CY8C20x34, CY8C20x24, CY8C20x66, CY8C20x36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46, CY8C20x96, CY7C604xx, CY7C643xx, CYONS2010, CYONS2011, CYONSFN2051, CYONSFN2053, CYONSFN2061, CYONSFN2151, CYONSFN2161, CYONSFN2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTST200, CY8CTMG2xx, CY8C20xx7/7S)

Mon, 15 Oct 2012 08:28:31 -0600

Features and Overview

Supports Serial Peripheral Interconnect (SPI) Master protocol.
Supports SPI clocking modes 0, 1, 2, and 3.
Selectable input sources for clock and MISO.
Selectable output routing for MOSI and SCLK.
Programmable interrupt on SPI done condition.
SPI Slave devices are independently selected.

The SPIM User Module is a Serial Peripheral Interconnect Master. It performs full duplex synchronous 8- bit data transfers. SCLK phase, SCLK polarity, and LSB First are available to accommodate most SPI clocking modes. Controlled by user supplied software, the slave select signal is able to control one or more SPI Slave devices. The SPIM PSoC block has selectable routing for the input and output signals and programmable interrupt driven control.

User Module Datasheet: SPI Slave Datasheet SPIS V 2.5 (CY8C20x34, CY8C20x24, CY8C20x66, CY8C20x36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46, CY8C20x96, CY7C604xx, CY7C643xx, CYONS2010, CYONS2011, CYONSFN2051, CYONSFN2053, CYONSFN2061, CYONSFN2151, CYONSFN2161, CYONSFN2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033- BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTST200, CY8CTMG2xx, CY8C20xx7/7S, CYRF89x35)

Mon, 15 Oct 2012 08:24:52 -0600

Features and Overview

Supports Serial Peripheral Interconnect (SPI) slave protocol.
Supports protocol modes 0, 1, 2, and 3.
Selectable input sources for MOSI, SCLK, and ~SS.
Selectable output routing for MISO.
Programmable interrupt on SPI done condition.
SS may be firmware controlled.

The SPIS User Module is a Serial Peripheral Interconnect Slave (SPIS). It performs full duplex synchronous 8 bit data transfers. You can specify SCLK phase, SCLK polarity, and LSB First to accommodate most SPI protocols. The SPIS PSoC block has selectable routing for the input and output signals and programmable interrupt driven control. Application Programming Interface (API) firmware provides a high level programming interface for either assembly or C application software.

User Module Datasheet: EzI2C Slave Datasheet EzI2Cs V 1.40 (CY8C20x66/36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46/96, CY8C20045/55, CY7C643/4/5xx, CY7C60413/24, CY7C6053x, CYONS2010/11, CYONSFN2051/53/61, CYONSFN2151, CYONSFN2161, CYONSFN2162, CY8CTST200, CY8CTMG2xx, CY8CTMA30xx, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTMA140, CY8C20xx7/S, CYRF89x35)

Mon, 15 Oct 2012 05:40:15 -0600

Features and Overview

Industry standard Philips I2C bus compatible interface
Emulates common I2C EEPROM interface
Only two pins (SDA and SCL) required to interface to I2C bus
Standard data rate of 100/400 kbps
High level API requires minimal user programming

The EzI2Cs user module implements an I2C register-based slave device. The I2C bus is an industry standard, two wire hardware interface developed by Philips® (now NXP).The master initiates all communication on the I2C bus and supplies the clock for all slave devices. The EzI2Cs user module supports the standard mode with speeds up to 400 kbps. No digital or analog PSoC blocks are consumed with this module. The EzI2Cs user module is compatible with multiple devices on the same bus.

User Module Datasheet: Incremental ADC Datasheet ADCINC V 2.00 (CY8C20x46, CY8C20x66, CY8C20x96, CY8C20xx6AS, CY8C20XX6L, CY7C643/4/5xx, CY7C60413, CY7C60424, CY7C6053x, CYONS2010, CYONS2011, CYONSFN2051, CYONSFN2053, CYONSFN2061, CYONSFN2151, CYONSFN2161, CYONSFN2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTST200, CY8CTMG2xx, CY8C20xx7/7S, CYRF89x35)

Mon, 15 Oct 2012 05:29:58 -0600

Features and Overview

8 to 10-bit resolution
Sample rate up to 11.71 ksps (10-bit resolution)
Sample rate up to 46.875 ksps (8-bit resolution)
Input range up to reference voltage
Internal clock divider

The ADCINC User Module is part of the System Performance Controller (SPC). SPC is a modular system for product performance compensation over process, voltage, and temperature variations. The system is based on the M8C microcontroller. The heart of the SPC is the microcontroller core, temperature sensor, and the SPC system bus.

User Module Datasheet: 16-Bit Timer Datasheet Timer16 V 1.1 (CY8C20x66/36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46/96, CY8C20045/55, CY7C64xxx, CY7C60413/24, CY7C6053x, CYONS2010, CYONS2011, CYONSFN2051, CYONSFN2053, CYONSFN2061, CYONSFN2151, CYONSFN2161, CYONSFN2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTST200, CY8CTMG2xx, CY8C20xx7/7S, CYRF89x35)

Mon, 15 Oct 2012 05:25:07 -0600

Features and Overview

16-bit programmable countdown timer
One shot countdown option where the period is not reloaded on Terminal Count
Interrupt occurs on Terminal Count
Uses the internal 32 kHz clock or the CPU clock

The user module is a 16-bit programmable timer with interrupt call back. It is clocked by the internal 32 kHz clock or the CPU clock.

User Module Datasheet: I2C Hardware Block Datasheet I2CHW V 2.10 (CY8C20x66/36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46/96, CY8C20045, CY7C60413, CY7C645xx, CY7C643/4/5xx, CY7C60424, CY7C6053x, CYONS2010/2011, CYONSFN2051/2053/2061/2151/2161/2162, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTST200, CY8CTMA140, CY8CTMG2xx, CY8CTMG30xx, CY8C20xx7/7S, CYRF89x35)

Mon, 15 Oct 2012 05:17:00 -0600

Features and Overview

Industry standard Philips I2C bus compatible interface
Slave only operation
Only two pins (SDA and SCL) required to interface to I2C bus
Standard data rate of 100/400 kbits/s, also supports 50 kbits/s
High level API requires minimal user programming
7-bit addressing mode

The I2C Hardware User Module implements an I2C Slave device in firmware. The I2C bus is an industry standard, two wire hardware interface developed by Philips®. The master initiates all communication on the I2C bus and supplies the clock for all slave devices. The I2CHW User Module supports the standard mode with speeds up to 400 kbits/s and is compatible with other slave devices on the same bus.

User Module Datasheet: EEPROM Datasheet E2PROM V 0.40 (CY7C633/638/639/601/602xx, CYRF69xx3)

Mon, 15 Oct 2012 04:07:44 -0600

Features and Overview

Full byte-oriented EEPROM emulation
Abstracts block-oriented Flash architecture
Efficient use of memory

The EEPROM User Module emulates an EEPROM device within the Flash memory of the PSoC device. The EEPROM device can be defined to start at any Flash block boundary, with a byte length from 1 to the remainder of Flash memory space. The API enables the user to read and write 1 to N bytes at a time.

User Module Datasheet: EEPROM Datasheet EEPROM V 1.1 (CY8C20x66, CY8C20x36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20xx6AS, CY8C20XX6L, CY8C20x46, CY8C20x96, CY8C20045, CY8C20055, CY7C645xx, CY7C643/4/5xx, CY7C60424, CY7C6053x, CYONS2000, CYONS2001, CYONS2100, CYONS2101, CYONS2110, CYONSFN2xxx, CYONSTB2xxx, CYONSFN2010-BFXC, CYONSCN2024-BFXC, CYONSCN2028-BFXC, CYONSCN2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CYONSTN2040, CY8CTMA140, CY8C20xx7/7S, CYRF89x35)

Mon, 15 Oct 2012 03:47:35 -0600

Features and Overview

Full byte-oriented EEPROM emulation
Abstracts block-oriented flash architecture
Efficient use of memory

The E2PROMx128 User Module emulates an EEPROM device within the Flash memory of the PSoC device. The EEPROM device can be defined to start at any Flash block boundary, with a byte length from 1 to the remainder of Flash memory space. The API enables the user to read and write 1 to N bytes at a time.

Forward Error Correction Support in WirelessUSB-NL - KBA82944

Thu, 11 Oct 2012 01:11:48 -0600

Answer: Yes. WirelessUSB-NL has the FEC23 encoder that adds redundancy to the transmit data, using 3 bits to transmit every two payload bits. Therefore, it increases the packet transmit time and effective receive sensitivity, and decreases the receive bit error rate (BER) decrease, thereby increasing the operational range and interference immunity.

How to enable/disable:

To enable/disable FEC, register 32 (bytes b4 and b5) can be programmed with the following options:

FEC_TYPE

00b: No FEC

01b: Reserved

10b: FEC23

11b: Reserved

Data Whitening Support in WirelessUSB-NL - KBA82945

Thu, 11 Oct 2012 01:00:49 -0600

Answer: Yes. If data whitening is enabled then both the header and the payload are scrambled with a data whitening word before transmission. This randomizes the data from highly redundant patterns and minimizes DC bias in the packet. The scrambling is performed prior to the forward error correction (FEC) encoding. Forward error correction (FEC) is a technique used for controlling errors in data transmission over unreliable or noisy communication channels.

How to enable:

To enable data whitening, program register bit 14 of register 41, as the direction below:

SCRAMBLE_ON	Removes long patterns of continuous 0 or 1 in transmit data. Automatically restores original unscrambled data on receive.
	1: Scramble on 0: Scramble off

How to select whitening seed:

To select data whitening seed, program register 35 (bit b0, b1, b2, b3, b4, b5, and b6) as the direction below:

SCRAMBLE_DATA

Whitening seed for data scramble. Must be set the same at both ends of radio link (Tx and Rx). Must be nonzero.

AgileHID™ - KBA82946

Thu, 11 Oct 2012 00:44:35 -0600

Answer: AgileHID™ is Cypress’s proprietary wireless software protocol optimized for wireless HID devices. It provides a set of APIs to develop wireless mouse, keyboard, and bridge applications thereby allowing WirelessUSB-NL customers to get started quickly on their designs without any additional effort. This protocol runs on Cypress’s radio driver and enCoRe™ MCUs. As the dongle is connected to the PC through USB, this protocol also uses USB driver APIs to transfer packets to and from the PC.

The protocol provides the following functionalities:

Binding device (mouse/keyboard) with bridge connected to PC
Packet transmit
Packet receive

The following functionalities of the protocol are not visible to application:

Configuring transmit, receive, and transaction parameters
Channel change algorithm to handle interference/noise
Reconnection between device and bridge
CRC generation
Network ID generation

Different Modules of AgileHID for Wireless Devices - KBA82947

Thu, 11 Oct 2012 00:32:05 -0600

Answer: The AgileHID protocol is divided into two modules. The one running on the bridge (dongle) side is the Master protocol, while the one running on the device (keyboard/mouse) side is the Slave protocol. Only one of the modules can be present in a subsystem (either Slave or Master protocol).

Advantages of Closed-Loop Phase Locked Loop (PLL) - KBA82948

Thu, 11 Oct 2012 00:25:49 -0600

Answer: A closed-loop PLL eliminates the problem of frequency drift. This enables WirelessUSB-NL to transmit long payloads without repeatedly having to pay power penalties for relocking the PLL as in open-loop designs. This increases battery life of the product.

Applications Supported by PRoC-EMB - KBA83002

Thu, 27 Sep 2012 00:53:52 -0600

Answer: PRoC-EMB offers a single chip solution, integrating an enCoRe™ V LV (low voltage) MCU with a low power, 2.4 GHz WirelessUSB-NL radio for the following applications:

Wireless HID – Mice, keyboards, presenters
Remote controllers – For consumer electronics (TVs, Set Top Boxes, and so on) and for radio controlled models or toys
R/C Models and toys

If you have any doubts as to whether your application can be supported with PRoC-EMB please contact procui@cypress.com.

I/Os available for Capacitive Sensing in PROC-UI – KBA82019

Thu, 27 Sep 2012 00:22:41 -0600

Answer: The PRoC-TT (68 pin) part has 35 general purpose I/Os (GPIOs) for capacitive sensing while the PRoC-CS (40 pin) has 13 GPIOs for capacitive sensing. The I/Os required for radio control and external modulator capacitor and the I/Os available for capacitive sensing are outlined below:

Part	Total GPIOs	I/Os Required for Radio Control	I/Os Required for External Modulator Capacitor (Cmod)	I/Os Available for Capacitive Sensing
PRoC-TT (CYRF89535-68LTXC)	35	4 for SPI 1 for radio reset	1	26
PRoC-CS (CYRF89435-40LTXC)	13	4 for SPI and 1 for radio reset	1	7
PRoC-CS (CYRF89435-68LTXC)	35	4 for SPI and 1 for radio reset	1	26

Thus in the case of PRoC-CS (40 pin) you have 7 general purpose I/Os free for capacitive buttons in your design if you want to use the radio. The 7 I/Os can be used to support a maximum of 12 buttons using a matrix layout or it can be used to support a maximum of 14 segments on a capacitive slider using a diplexer. The 68 pin PRoC-CS part has 35 GPIOs (26 for capacitive sensing) and can be used for applications where there is a need for larger number of GPIOs.

The PRoC-TT part supports 35 general purpose I/Os that can be used for capacitive sensing. If you are using the radio, a maximum of 26 XY sensors are available for touch support.

Using an External MCU with PROC-UI - KBA82025

Thu, 27 Sep 2012 00:09:55 -0600

Answer: All variants of PRoC-UI (PRoC-TT, PRoC-CS, PRoC-USB, and PRoC-EMB) have an onboard MCU. Typically there is no need for you to use an external MCU in your design.

In some cases your design may require more general purpose I/Os (GPIOs) than available on the PRoC-UI parts. An example of a design like this is a keyboard with a built-in trackpad.In such cases PRoC-UI supports connection of an external MCU over SPI. In the case of the keyboard with built in trackpad, the external MCU can handle mechanical buttons while the PRoC-UI can handle the trackpad and radio functionality.

We recommend the enCoRe Low Voltage series of MCUs for use with PRoC-UI. To find out more about our enCoRe low voltage MCUs please click here

Auto Tuning for Capacitive Sensors with PROC-UI - KBA82023

Thu, 27 Sep 2012 00:00:04 -0600

Answer: PRoC-UI is available in four variants: PRoC-TT, PRoC-CS, PRoC-USB, and PRoC-EMB.

PRoC-CS is enabled by SmartSense™ technology for auto tuning, which automatically optimizes CapSense® performance in a wide range of applications. The EMC version of SmartSense boasts of best in class noise immunity.

PRoC-TT, PRoC-USB, and PRoC-EMB are not intended for CapSense and thus do not support auto-tuning for capacitive sensors.

Development Environment Needed to Configure PROC-UI - KBA82018

Wed, 26 Sep 2012 23:45:54 -0600

Answer: PSoC Designer 5.3, scheduled for release in September 2012, will support PRoC-TT (CYRF89535-68LTXC), PRoC-CS (CYRF89435-40LTXC), and PRoC-USB (CYRF89235-40LTXC).The PRoC-TT user module will contain Cypress’s TrueTouch IP. Hence, it will be password protected. Passwords will be provided to customers who sign a Non-Disclosure Agreement (NDA) with Cypress.

PRoC-CS (CYRF89435-68LTXC) and PRoC-EMB (CYRF89135-40LTXC) will be supported in later releases of PSoC Designer.

Please contact procui@cypress.com to know more about this.

Availability of silicon for PROC-UI - KBA82015

Wed, 26 Sep 2012 23:39:47 -0600

Answer: Tested samples for PRoC-TT (CYRF89535-68LTXC), PRoC-CS (CYRF89435-40LTXC), and PRoC-USB (CYRF89235-40LTXC), are currently available. These variants will be in production in the fourth quarter of 2012.

PRoC-CS (CYRF89435-68LTXC) and PRoC-EMB (CYRF89135-40LTXC) will be in production in the first quarter of 2013.

Please contact your local sales or procui@cypress.com for more details.

Applications supported by PRoC-TT - KBA82012

Wed, 26 Sep 2012 07:00:47 -0600

Answer: Typical applications supported by PRoC-TT are as follows:

Touch mouse - Unlike a typical mouse, this species of mice has a touch-sensitive surface on top, so instead of clicking with fingers, users can tap and swipe and perform other gestures as they would on a touch-screen. PRoC-TT can be used as a single chip solution for such designs. PRoC-TT enables touch mice to support Windows 8 specific gestures as well as normal one and two finger gestures.
Wireless trackpad - Wireless trackpads have a touch sensitive surface to them to recognize gestures performed by users together with a wireless 2.4 GHz link to transmit the recognized gestures to a dongle on the PC side. The dongle forwards the gestures to the windows OS. PRoC-TT can be used as a single chip solution on the trackpad side for touch sensing and wireless communication. PRoC-TT enables wireless trackpads to support Windows 8 specific gestures as well as normal one and two finger gestures.
Keyboard with built in trackpad - Wireless keyboards design with built-in trackpads enable users to perform gestures together with typing. Such designs enable ease of use for end users. Activities such as scrolling, zooming in and out, and switching between applications become easy to perform without having to switch to a mouse while typing on the keyboard. PRoC-TT together with an external MCU offers a two chip solution for such designs. Moreover with Windows 8 Metro UI coming out, PRoC-TT which supports Windows 8 gestures opens up more possibilities for such designs.
Remote controller with trackpad - With Smart TVs or Connected TVs providing users with a range of functionality such as web browsing, on demand streaming and so on, remote controllers for TVs and Set Top Boxes (STBs) are also evolving. Remote controllers are incorporating trackpads for cursor movement and gesture support. PRoC-TT enables a single chip solution (both touch sensing and wireless communication) for such remotes.
Remote controlled toys - Radio Controlled (R/C) models and R/C toys are controlled using a remote controller. Remote controllers with trackpads allow users to use touch i.e. finger movements to control R/C toys. PRoC-TT can be used as a single chip solution for touch sensing and wireless communication on such remote controllers.

Please note that this list is not exhaustive. If you have any doubts as to whether your application can be supported with PRoC-TT please contact us at procui@cypress.com

Applications supported by PRoC-CS - KBA82013

Wed, 26 Sep 2012 06:50:28 -0600

Answer: Typical applications supported by PRoC-CS are as follows:

Mouse with capacitive scroll and haptics – Capacitive sensing based sliders (to replace scroll wheels) and haptic feedback enable user friendly and sleek mouse design. PRoC-CS provides a single chip solution to support capacitive sensing, haptic feedback control and wireless communication on a single chip. Keyboard with multimedia keys – Wireless keyboards which have capacitive keys for multimedia control, LEDs for battery monitoring, and so on, can be supported with PRoC-CS. Depending on functionality required, single chip (PRoC-CS) and two chip (PRoC-CS + external enCoRe V MCU) solutions are available.
Remote controllers with capacitive touch buttons – Remote controllers for TVs, Set Top Boxes and other consumer electronics, which use capacitive buttons look sleeker and more stylish than those with mechanical buttons. PRoC-CS provides a single chip solution for such devices, integrating capacitive sensing and wireless 2.4 GHz on a single chip.Remote controlled toys – Radio Controlled (R/C) models and R/C toys are controlled using a remote controller. Remote controllers which use capacitive buttons look sleeker and more stylish than those with mechanical buttons. PRoC-CS provides a single chip solution for such devices, integrating capacitive sensing and wireless 2.4 GHz on a single chip.

Please note that this list is not exhaustive. If you have any doubts as to whether your application can be supported with PRoC-CS please contact us at procui@cypress.com

Applications supported with PRoC-UI - KBA82011

Wed, 26 Sep 2012 06:44:20 -0600

Answer: PRoC-UI is available in four variants: PRoC-TT, PRoC-CS, PRoC-USB, and PRoC-EMB. Please refer to the knowledge base articles available for each of the variants to know more about the applications supported.

Avoiding Interference in the 2.4-GHz ISM Band

Wed, 12 Sep 2012 06:43:32 -0600

commsdesign.com

Designers can create frequency-agile 2.4 GHz designs using procedures provided by standards bodies or by building their own protocol.

The Need for RF in Remote Controls

Wed, 12 Sep 2012 06:16:16 -0600

Traditionally a product perceived to be more of a bundled accessory, remote controls are starting to play a more significant role in Consumer Electronics because of converging trends towards a digital living room. Media convergence into the living room has taken significant steps with digital TVs becoming more affordable and further fueled by the growing popularity of ON DEMAND, TiVo and digital/personal video recorders in general. Because of this paradigm shift, the demand for remotes to be equipped with LCD displays and touch screens is starting to become noticeable. And the freedom and flexibility of RF as opposed to old-school infrared (IR) is catapulting in status from a "nice-to-have" feature to becoming an absolute requirement. To view more on this topic, click the download link above or visit EE Times.

How to Simplify Debugging and Documenting Wireless Applications

Wed, 12 Sep 2012 06:09:24 -0600

Wireless application debugging sessions are prone to analyzer capture buffer overruns and mountainous serial-based protocol to unravel. Often this leaves engineers with the troublesome time-consuming task of manually stitching together and decoding elaborate back-to-back captures to analyze the inner workings of a single event. This article details the ease of debugging and documenting your wireless application utilizing PC-based tools. To read more on this topic, click the download link above or visit Wireless Net Designline.

Availability of modules for PRoC UI - KBA82016

Wed, 12 Sep 2012 05:27:08 -0600

Answer: No, currently only silicon is available. However we have reference material available with us for several applications. Please contact your local sales or procui@cypress.com if you need support on designing in PRoC-UI in your application.

Applications supported by PROC-USB - KBA82014

Wed, 12 Sep 2012 04:58:41 -0600

Answer: PRoC-USB offers a single chip solution for dongles and nano dongles which provide host side connectivity for wireless devices. PRoC-USB can also be used to provide embedded radio + MCU functionality for devices which do not use external dongles.

If you have any doubts as to whether your application can be supported with PRoC-USB please contact us at procui@cypress.com

Windows 8 Support on PROC-UI - KBA82028

Wed, 12 Sep 2012 01:09:56 -0600

Answer: PRoC-TT, the TureTouch variant of PRoC-UI supports Windows 8 specific gestures. The wireless trackpad demo (which uses PRoC-TT) also supports windows 8. We also have a 105 mm x 65 mm trackpad in the works which will support Windows 8. Email us at procui@cypress.com for more information on Windows 8 support.

Advantages of Designing with PROC-UI - KBA82026

Wed, 12 Sep 2012 00:45:26 -0600

Answer: Designing with PRoC-UI has several advantages. A few of these are as follows:

Combines three chips into one for wireless touch sensing solutions
On board low power, radio - WirelessUSB-NL
Reduces board space, BOM costs
Low power consumption for battery operation
Uses market leading CapSense® and TrueTouch® technology
High performance sensing across a variety of overlay materials and thickness
Library of one finger and two finger gestures on trackpads included
Windows 8 compatible and supports Windows 8 touch gestures
SmartSense™ Auto-Tuning technology
Complete user interface solution including audio, visual, and haptics feedback
Higher flash size

Developing Gestures and Modifying Existing Gestures on PROC-TT - KBA82022

Tue, 11 Sep 2012 06:53:45 -0600

Answer: After you have access to the PRoC TT user module, you will be able to tune your board by modifying parameters such as active distance threshold, scrolling speed, and so on. However, the source code for the gestures will NOT be distributed and modifying the source code will not be possible.

APIs available with the user module are for tuning and debugging purpose. We do not recommend you to use those APIs to develop your own gestures. For any further queries on customized gestures please mail us at procui@cypress.com

Gestures supported by PROC-TT - KBA82021

Tue, 11 Sep 2012 06:43:16 -0600

Answer: The PRoC TT part supports the following single finger and two finger gestures -

Single Finger Pan North
Single Finger Pan Northeast
Single Finger Pan Northwest
Single Finger Pan South
Single Finger Pan Southeast
Single Finger Pan Southwest
Single Finger Pan East
Single Finger Pan West
Single Finger Single Click
Single Finger Double Click
Single Finger Rotate Clockwise
Single Finger Rotate Counter Clockwise
Two Finger Pan North
Two Finger Pan Northeast
Two Finger Pan Northwest
Two Finger Pan South
Two Finger Pan Southeast
Two Finger Pan Southwest
Two Finger Pan East
Two Finger Pan West
Two Finger Tap
Pinch
Zoom Out
Drag
Slide From Right Edge (Windows 8)
Slide From Left Edge (Windows 8)
Slide From Top Edge (Windows 8)
Two Finger Inertial Scroll (Windows 8)

All standard gestures in Windows are supported by PRoC-TT. You can mail us at procui@cypress.com for more information on supported gestures.

enCoRe™ V CY7C643xx, enCoRe™ V LV CY7C604xx Technical Reference Manual (TRM)

Tue, 11 Sep 2012 01:22:09 -0600

The enCoRe™ V family consists of many On-Chip Controller devices. The CY7C643xx and CY7C604xx enCoRe V devices have fixed analog and digital resources in addition to a fast CPU, flash program memory, and SRAM data memory to support various algorithms.

User Module Datasheet: SPI-based CyFi™ Transceiver Data Sheet CYFISPI (CY7C638x3, CY7C601/602xx, CYRF69103, CYRF69213)

Tue, 11 Sep 2012 00:23:12 -0600

The SPI-based CyFi™ Transceiver (CYFISPI) User Module is a firmware interface to the CyFi radio modem hardware. The CYFISPI User Module API provides functions callable from both C and assembly to start the radio, send and receive data, change channels, transmit power, pseudo-noise codes, and more. Refer to the corresponding CyFi radio datasheet for detailed descriptions of the radio features. The CYFISPI User Module employs the SPI block as an SPI master to communicate with the CyFi radio transceiver.

Cypress USB Solutions

Thu, 30 Aug 2012 01:19:26 -0600

AN6066 - Wireless Binding Methodologies

Thu, 16 Aug 2012 05:37:56 -0600

Introduction

Robust wireless systems require a well thought out method of establishing a connection between different elements in the system. This method is called "binding", its purpose is to enable communication and prohibit unwanted connection with devices outside the intended system.

User Module Datasheet: SPI MASTER DATASHEET,SPIM V2.6 (CY8C29/27/24/22/21xxx, CY7C603xx, CY7C64215, CYWUSB6953, CY8C23x33, CY8CLED02/04/08/16, CY8CLED0xD, CY8CLED0xG, CY8CTST110, CY8CTMG110, CY8CTST120, CY8CTMG120, CY8CTMA120, CY8C21x45, CY8C22x45, CY8CTMA30xx, CY8C28x45, CY8CPLC20, CY8CLED16P01, CYRF69xx3, CY8C28xxx)

Thu, 02 Aug 2012 07:08:59 -0600

Features and Overview

Supports Serial Peripheral Interconnect (SPI) Master protocol
Supports SPI clocking modes 0, 1, 2, and 3
Selectable input sources for clock and MISO
Selectable output routing for MOSI and SCLK
Programmable interrupt on SPI-done condition
SPI Slave devices can be independently selected

The SPIM User Module is a Serial Peripheral Interconnect Master. It performs full duplex synchronous 8-bit data transfers. SCLK phase, SCLK polarity, and LSB First can be specified to accommodate most SPI clocking modes. Controlled by user-supplied software, the slave select signal can be configured to control one or more SPI Slave devices. The SPIM PSoC block has selectable routing for the input and output signals, and programmable interrupt-driven control.

User Module Datasheet: WIRELESSUSBLS RADIO DATA SHEET, WIRELESSUSBLS V1.0(CYWUSB6953)

Thu, 02 Aug 2012 06:19:29 -0600

Features and Overview

2.4 GHz radio transceiver
Operates in the unlicensed Industrial, Scientific, and Medical (ISM) band (2.4 GHz-2.483 GHz)
-90 dBm receive sensitivity
Up to 0 dBm output power
Range of up to 10 meters
Data throughput up to 62.5 Kbs

The WirelessUSB LS Radio User Module is a firmware interface to the WirelessUSB LS Radio hardware. The radio does not use any PSoC digital or analog blocks. The WirelessUSB LS Radio API provides functions callable from both C and assembly to start the radio, send and receive data, change channels, change PN codes, and so on.

User Module Datasheet: 12-BIT PROGRAMMABLE INTERVAL TIMER DATASHEET, PITIMER12 V 1.1 (CY7C639/638/633/601/602XX, CYRF69XX3)

Thu, 02 Aug 2012 05:42:49 -0600

Features and Overview

12-bit programmable interval timer
Source clock rates up to 24 MHz
Automatic reload of period on terminal count

Functional Description

The 12-Bit Programmable Interval Timer User Module provides convenient access to the Programmable Interval Timer feature of the enCoRe II.

User Module Datasheet: USB DEVICE DATASHEET, USB V 1.90 (CY7C639/638/633XX, CYRF69XX3)

Thu, 02 Aug 2012 05:42:06 -0600

Features and Overview

USB device interface driver
Support for interrupt and control transfer types
Setup wizard for easy and accurate descriptor generation
Runtime support for descriptor set selection
Optional USB string descriptors
Optional HID class support
Optional PS/2 support for USB-PS/2 combination devices (Note: PS/2 is not supported on CYRF69xx3 devices)

Functional Description

The USB Device User Module provides a USB Chapter 9 compliant device framework. The user module provides a low level driver for the control endpoint that decodes and dispatches requests from the USB host. The user module supports the HID Class. USB descriptors can be configured with the USB Setup Wizard.

User Module Datasheet: 8-Bit Software Serial Transmitter Datasheet TX8SW V 1.2 (CY8C29/27/24/21xxx, CY8C20x34, CY8CLED02/04/08/16, CY8CLED0xD, CY8CLED0xG, CY8C20x66/36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20XX6L,.CY8C20xx6AS, CY8C20x46/96, CY7C604xx, CY7C643xx, CYONS2xxx, CYONSTB2010/2011, CYONSFN2010-BFXC, CYONSCN2024-BFXC/2028-BFXC/2020-BFXC, CYONSKN2033-BFXC, CYONSKN2035-BFXC, CYONSKN2030-BFXC, CY8CTMG2xx, CY8CTMA30xx, CY8C28x45, CY8C21x12, CYONSTN2040, CY8CTMA140, CY8C20xx7/7S)

Thu, 02 Aug 2012 04:40:48 -0600

Features and Overview

7/8-bit software serial transmitter
Data framing consists of start, optional parity, and one or two stop bits
RS-232 serial-data compatible format with optional parity

The TX8SW User Module is an 7- or 8-bit RS-232 data-format compliant serial transmitter. The data transmitted is framed with a leading start bit and a final one or two stop bits. Transmitter firmware is used to start and stop device and control transmission of complex structures like strings, HEX value representations, and so on.

User Module Datasheet: AUTOTUNING CAPSENSE® SIGMA-DELTA DATASHEET, CSDAUTO V 1.0 (CY8C20X66, CY8C20X36, CY8C20336AN, CY8C20436AN, CY8C20636AN, CY8C20X46, CY8C20X96, CY8C20XX6AS, CY7C645XX, CY7C643/4/5XX, CY7C60424, CY7C6053X, CYONS2110, CYONS21L1T, CYONSFN2162)

Thu, 02 Aug 2012 03:43:55 -0600

Features and Overview

AutoTuning algorithms optimize the operational parameters at runtime based on the parasitic capacitance of each sensor.
Scans 1 to 36 capacitive sensors.
Capable of detecting 0.1 pF touch with parasitic sensor capacitance (Cp) up to 50 pF as long as layout guidelines of are followed.
Sensing possible through up to a 15 mm glass overlay.
High immunity to AC mains noise, other EMI, and power supply voltage changes.
Supports capacitive sensors configured as independent buttons, proximity sensors and/or as dependent arrays to form sliders. Sliders and proximity sensors not fully supported in this beta version.
Effective number of slider elements can double the number of dedicated IO pins using diplexing technique.
Supports slider resolution greater than physical pitch through interpolation.
Touchpads can be implemented as pairs of interwoven orthogonal sliders.
Shield electrode provides for reliable operation with high parasitic capacitance and/or in the presence of water film.
Guided sensor and pin assignments using the CSDAUTO Wizard.
PC GUI application support for raw data monitoring in real-time.

The CSDAUTO (Autotuning CapSense® using a Sigma-Delta Modulator) User Module provides capacitance sensing using the switched capacitor technique with a sigma-delta modulator to convert the sensor capacitance into digital code.

User Module Datasheet: CyFi™ Star Network Protocol Stack Datasheet CYFISNP V2.00 (CY7C601xx/602xx, CY7C60413, CY7C638x3, CY7C64343/215, CYRF69103/213, CY7C603xx, CY8C21x34/45, CY8C22x45/23x33/24x94/27x43, CY8C20xx6AS, CY8C20XX6L, CY8C20x47/7S, CY8C20x67/7S, CY8C28x45/29x66, CY8CLED04/08/16, CY8CLED0xD/G, CY8CLED16P01, CY8CPLC20, CY8CTST120, CY8CTxx120, CY7C604xx/643xx, CY8C20x46/66/96, CY8CTxx200, CY8CTMA140/TMG201, CYONS20x0/20x1, CYONSTB2010/2011, CYONSFN2xxx, CY8C20x24/34, CY8Cxx300B/D)

Thu, 02 Aug 2012 03:41:03 -0600

User Module Datasheet: 1 MILLISECOND INTERVAL TIMER DATASHEET, MSTIMER V 1.2 (CY7C639/638/633/602/601XX, CYRF69XX3)

Thu, 02 Aug 2012 03:31:48 -0600

Features and Overview

12-bit interval timer
Input clock: enCoRe II TCAPCLK Clock
Provides a 1 Millisecond interrupt with the TCAPCLK Divider = 6 (24 MHz/6 = 4 MHz)
Source clock rates up to 24 MHz
Designed to use with the USB User Module for USB Suspend handling

Functional Description

The MSTIMER User Module provides convenient access to the "1024 microsecond" feature of the enCoRe II.

User Module Datasheet: PS/2 DEVICE DATASHEET, PS2D V 1.2 (CY7C639/638/633/602/601XX)

Thu, 02 Aug 2012 03:29:41 -0600

Features and Overview

PS/2 Device Interface
Selectable command sets for mouse or keyboard applications
Custom feature unlock mechanism
Integrated with the USB SIE for combo USB-PS/2 applications

Functional Description

The PS/2 Device User Module supports a standard PS/2 keyboard or a standard PS/2 mouse. A PS/2 connector is a 6-pin mini-DIN connector. It can be used for connecting either a keyboard or a mouse with a compatible computer. You must choose to support either a keyboard or a mouse with the PS/2 Device User Module. Choose to support either the keyboard command set or the mouse command set when you select the user module. If you wish to change from one to the other after the user module is selected, right click on the user module icon and select User Module Selection Options. By convention, connectors that support keyboards are color coded purple, and ports that support mice are color coded green. With the addition of the USB Device User Module, you can create a single device that supports a USB and PS/2 combination device.

CYRF6936: WirelessUSB™ LP 2.4 GHz Radio SoC

Mon, 30 Jul 2012 04:38:05 -0600

WirelessUSB™ LP 2.4 GHz Radio SoC

Features

2.4 GHz Direct Sequence Spread Spectrum (DSSS) radio transceiver
Operates in the unlicensed worldwide Industrial, Scientific, and Medical (ISM) band (2.400 GHz to 2.483 GHz)
21 mA operating current (Transmit at –5 dBm)
Transmit power up to 4 dBm
Receive sensitivity up to –97 dBm
Sleep Current less than 1 μA
DSSS data rates up to 250 kbps, GFSK data rate of 1 Mbps
Low external component count
Auto Transaction Sequencer (ATS) - no MCU intervention
Framing, Length, CRC16, and Auto ACK
Power Management Unit (PMU) for MCU/Sensor
Fast Startup and Fast Channel Changes
Separate 16-byte Transmit and Receive FIFOs
AutoRate™ - dynamic data rate reception
Receive Signal Strength Indication (RSSI)
Serial Peripheral Interface (SPI) control while in sleep mode
4 MHz SPI microcontroller interface
Battery Voltage Monitoring Circuitry
Supports coin-cell operated applications
Operating voltage from 1.8V to 3.6V
Operating temperature from 0 to 70°C
Space saving 40-pin QFN 6x6 mm package

Functional Description

The CYRF6936 WirelessUSB™ LP radio is a second generation member of the Cypress WirelessUSB Radio System-On-Chip (SoC) family. The CYRF6936 is interoperable with the first generation CYWUSB69xx devices. The CYRF6936 IC adds a range of enhanced features, including increased operating voltage range, reduced supply current in all operating modes, higher data rate options, reduced crystal start up, synthesizer settling, and link turnaround times.

CYWM6935: WirelessUSB LR™ Radio Module

Mon, 30 Jul 2012 04:36:58 -0600

NOT RECOMMENDED FOR NEW DESIGNS. RECOMMEND CYFI LOW-POWER RF PRODUCTS INSTEAD.

WirelessUSB LR(TM) Radio Module

Features

The CYWM6935 LR(TM) 2.4-GHz DSSS Radio SoC Module includes radio (CYWUSB6935) , antenna, and all external components
Complete Radio Module with Dual PCB Trace Antennas
Operates in the unlicensed Industrial, Scientific, and Medical (ISM) band (2.4 GHz-2.483 GHz)
-95-dBm receive sensitivity
Up to 0-dBm output power
Range of up to 50 meters or more
Data throughput of up to 62.5 kbits/sec
SPI microcontroller interface (up to 2 MHz data rate)
Operating voltage from 2.7V to 3.6V
For more, see Pdf

Functional Description

The CYWM6935 WirelessUSB LR(TM) Radio Module offers a complete radio module solution for integration into existing or new 2.4-GHz products.

The CYWM6935 is tested for functional operation and is FCC/ETSI(EU)/Industry pre-certified. The module is supplied with dual integrated PCB trace antennas. The CYWM6935 is available in a small PCBA design and can be mounted horizontally to the device PCB via a 12-pin header.

CYWM6934: WirelessUSB LS™ Radio Module

Mon, 30 Jul 2012 04:35:54 -0600

NOT RECOMMENDED FOR NEW DESIGNS. RECOMMEND CYFI LOW-POWER RF PRODUCTS INSTEAD.

WirelessUSB LS(TM) Radio Module

Features

The CYWM6934 LS(TM) 2.4-GHz DSSS Radio SoC Module includes radio (CYWUSB6934), antenna, and all external components
Complete Radio Module with PCB Trace Antenna
Operates in the unlicensed Industrial, Scientific, and Medical (ISM) band (2.4 GHz-2.483 GHz)
-90-dBm receive sensitivity
Up to 0-dBm output power
Range of up to 10 meters or more
Data throughput of up to 62.5 kbits/sec
SPI microcontroller interface (up to 2 MHz data rate)
Operating voltage from 2.7V to 3.6V
For more, see pdf

Functional Description

The CYWM6934 WirelessUSB LS(TM) Radio Module offers a complete radio module solution for integration into existing or new 2.4-GHz products. The CYWM6934 is tested for functional operation and is FCC/ETSI(EU)/Industry pre-certified. The module is supplied with an integrated PCB trace antenna. The CYWM6934 is available in a small PCBA design and can be mounted horizontally to the device PCB via a 12-pin header. More...

CYWUSB6935: WirelessUSB™ LR 2.4 GHz DSSS Radio SoC

Mon, 30 Jul 2012 04:34:52 -0600

NOT RECOMMENDED FOR NEW DESIGNS. RECOMMEND CYFI LOW-POWER RF PRODUCTS INSTEAD.

WirelessUSB™ LR 2.4 GHz DSSS Radio SoC

Features

2.4-GHz radio transceiver
Operates in the unlicensed Industrial, Scientific, and Medical (ISM) band (2.4 GHz to 2.483 GHz)
Receive sensitivity: –95 dBm
Up to 0 dBm output power
Range of up to 50 meters or more
Data throughput of up to 62.5 kbits/sec
Highly integrated low cost, minimal number of external components required
Dual direct sequence spread spectrum (DSSS) reconfigurable baseband correlators
SPI microcontroller interface (up to 2 MHz data rate)
For more, see pdf

Functional Description

The CYWUSB6935 transceiver is a single-chip 2.4 GHz DSSS Gaussian Frequency Shift Keying (GFSK) baseband modem radio that connects directly to a microcontroller via a simple serial peripheral interface.

The CYWUSB6935 is offered in an industrial temperature range 48-pin QFN and a commercial temperature range 48-pin QFN.

CYWUSB6934, CYWUSB6932: WirelessUSB™ LS 2.4 GHz DSSS Radio SoC

Mon, 30 Jul 2012 04:25:30 -0600

WirelessUSB™ LS 2.4 GHz DSSS Radio SoC

Features

2.4-GHz radio transceiver
Operates in the unlicensed Industrial, Scientific, and Medical (ISM) band (2.4 GHz to 2.483 GHz)
Receive sensitivity: –90 dBm
Up to 0 dBm output power
Range of up to 10 meters or more
Data throughput of up to 62.5 kbits/sec
Highly integrated low cost, minimal number of external components required
Dual direct sequence spread spectrum (DSSS reconfigurable baseband correlators
SPI microcontroller interface (up to 2-MHz data rate)
For more, see pdf

Functional Description

The CYWUSB6932/CYWUSB6934 Integrated Circuits (ICs) are highly integrated 2.4-GHz DSSS radio system-on-chip (SoC) ICs. From the serial peripheral interface (SPI) to the antenna, these ICs are single-chip 2.4-GHz DSSS Gaussian Frequency Shift Keying (GFSK) baseband modems that connect directly to a microcontroller via simple serial interface.

The CYWUSB6932 transmit-only IC and the CYWUSB6934 transceiver IC are available in a small footprint 48-pin QFN package.

CY7C601xx, CY7C602xx: enCoRe™ II Low-Voltage Microcontroller

Mon, 30 Jul 2012 03:39:46 -0600

enCoRe™ II Low-Voltage Microcontroller

Features

enCoRe™ II low-voltage (enCoRe II LV) – enhanced component reduction
- Internal crystalless oscillator with support for optional external clock or external crystal or resonator
- Configurable I/O for real world interface without external components
Enhanced 8-bit microcontroller
- Harvard architecture
- M8C CPU speed up to 12 MHz or sourced by an external crystal, resonator, or clock signal
Internal memory
- 256 bytes of random access memory (RAM)
- 8 KB of flash including electrically erasable read only memory (EEROM) emulation
FOr more, see pdf

Introduction

The enCoRe II LV family brings the features and benefits of the enCoRe II to non-USB applications. The enCoRe II family has an integrated oscillator that eliminates the external crystal or resonator, reducing overall cost. Other external components, such as wakeup circuitry, are also integrated into this chip.

Catergory	Family	Kit Part number	Description
SuperSpeed Peripheral	EZ-USB FX3	CYUSB3KIT-001	Development kit for EZ-USB® FX3™
High Speed Peripheral	West Bridge™ Astoria/Antioch	CYWBDVK002AB	Development Kit for High Speed Multimedia Mass Storage Peripheral Controller
	EZ-USB FX2LP	CY3684	Development kit for the EZ-USB FX2LP™
	MoBL-USB FX2LP18	CY3687	Development kit for the MoBL-USB FX2LP18™
	EZ-USB AT2LP	CY4615B	Development Kit for Hi-speed USB 2.0-to-ATA/ATAPI Bus-Powered
	EZ-USB FX2LP to ATA	CY4611B	Development Kit for USB 2.0 USB to ATA
	EZ-USB NX2LP-Flex	CY3686	Development Kit for NAND flash based USB 2.0 application
Full-Speed Peripheral	EZ-USB FX1	CY3674	Development kit for the EZ-USB FX1
	enCoRe™ V	CY3660	Development kit for WirelessUSB-LP radio and enCoRe V / LV MCU devices
	enCoRe™ V	CY3668	Development kit for WirelessUSB-NL radio and enCoRe II & enCoRe V MCU devices
	enCoRe™ III	CY3664-EXT	Development Kit for enCoRe III
Low Speed Peripheral	enCoRe™ II	CY3655-EXT	Development kit for enCoRe II and Wireless enCoRe II
Low Speed Peripheral	enCoRe™ II	CY3668	Development kit for WirelessUSB-NL radio and enCoRe II & enCoRe V MCU devices
USB Transceivers	MoBL-USB™ TX2UL	CY3688	Development kit for USB PHY with support for both High-Speed and Full-Speed
Wireless/RF	CyFi™ Low-Power RF	CY3271-EXP1	Expansion kit for CY3271 PSoC FirstTouch Starter Kit
	CyFi™ Low-Power RF	CY3271-RFBOARD Wireless Expansion Kit	Expansion kit for CY3271 PSoC FirstTouch Starter Kit
	WirelessUSB™-LP	CY3660	Development kit for WirelessUSB-LP radio and enCoRe V / LV MCU devices
	WirelessUSB™-NL	CY3668	Development kit for WirelessUSB-NL radio and enCoRe II & enCoRe V MCU devices

Catergory	Family	Kit Part number	Description
High Speed Hubs	HX2	CY4602	High-Speed USB 2.0 Compliant 4-Port Hub
	HX2LP	CY4605	High-Speed Low-Power USB 2.0 Compliant 2-Port Hub
	HX2LP	CY4606	High-Speed Low-Power USB 2.0 Compliant 4-Port Hub
	HX2VL	CY4607	High-Speed Very Low-Power USB 2.0 Compliant 4-Port STT Hub with 48-pin TQFP package
		CY4607M	High-Speed Very Low-Power USB 2.0 Compliant 4-Port MTT Hub with 48-pin TQFP package
		CY4608	High-Speed Very Low-Power USB 2.0 Compliant 4-Port STT Hub with 28-pin QFN package
		CY4608M	High-Speed Very Low-Power USB 2.0 Compliant 4-Port MTT Hub with 28-pin QFN package
Low Speed Peripheral	enCoRe™ II	CY4623	Wired Mouse Reference Design Kit
Wireless/RF	PRoC LP	CY4672	Wireless keyboard, mouse, and USB bridge Reference Design Kit
Wireless/RF	WirelessUSB™-LP	CY4638	WirelessUSB LP VoIP Demo Kit

Catergory	Family	Kit Part number	Description
Wireless/RF	CyFi™ Low-Power RF	CY3271 PSoC FirstTouch Starter Kit	PSoC® FirstTouch™ Starter Kit with CYFi™ Low-Power RF

Catergory	Family	Kit Part number	Description
Programmers	enCoRe™ V enCoRe™ III enCoRe™ II	CY3217-MiniProg1	Programming tool for all enCoRe II, enCoRe III & enCoRe V devices
		CY8CKIT-002 PSoC® MiniProg3 Program and Debug Kit	Programming tool for all enCoRe II, enCoRe III & enCoRe V devices
		CY3655-PLG	5-Pin to USB adapter for programming enCoRe II and enCoRe III devices

Catergory	Family	Kit Part number	Description
Low/Full Speed Peripheral	enCoRe™ V enCoRe™ III enCoRe™ II	CY3215-DK In-Circuit Emulation Development Kit	Debug tool for all enCoRe II, enCoRe III & enCoRe V devices
Wireless/RF	WirelessUSB™-LP	CY3631 WirelessUSB(TM) Manufacturing Test Kit	Automated platform to quickly test WirelessUSB-LP products

Cypress.com: Documentation

CY7C604XX: enCoRe™ V Low Voltage Microcontroller

Cypress Semiconductor Leadtime Guide

CYRF69313: Programmable Radio-on-Chip LPstar

CYRF69303: Programmable Radio-on-Chip LPstar

CYRF8935: WirelessUSB™-NL 2.4 GHz Low Power Radio

QTP 124707: PRoC Touch/Capsense Device Family, 0.18um, TSMC & S8DIN-5R, Fab 5 GSMC

CYRF69213: Programmable Radio on Chip Low Power

AN86272 - PRoC™-CS Hardware Design Guidelines

Interoperating WUSB-NL DVK (CY3668 Rev. **) with nonDVK WUSB-NL Hardware - KBA83288

USB & Wireless/RF Kits

Kit Classification

Kit Selection

Documentation

Support

Antenna Type and Location for WUSB-NL - KBA83398

Recommendations for PCB Layout for WUSB-NL - KBA83397

Product Selector Guide (PSG) - Wireless/RF

CE58786 - Implementing Pin Specific Interrupts in enCoRe™ II / enCoRe II LV

Compatibility between the WirelessUSB™-NL Radio Modules Provided with CY3668 Rev. ** and CY3668 Rev. *A - KBA86365

CYRF69103: Programmable Radio on Chip Low Power

CYRF7936: 2.4-GHz CyFi™ Transceiver

WirelessUSB NL Radio Driver

Introduction to PRoC™-UI

CY3668 WirelessUSB NL Development Kit

AN72428 - Schematic Review Checklist for WirelessUSB™ NL

Wireless USB Cuts the Cord for Multipoint-to-Point Systems

CY4638 WirelessUSB(TM) LP VoIP Demo Kit

CY3660 enCoRe V / LV Development Kit

CY3631 WirelessUSB(TM) Manufacturing Test Kit

CYRF89435: PRoC™ - CapSense®

AN79455 - Getting Started with WirelessUSB™-LP Radio and enCoRe™ V LV

AN83281 - Developing RF-Based Remote Control Using WirelessUSB™-NL

Demo: Wireless Keyboard using WirelessUSB™-NL Development Kit (DVK)

CyFi™ Star Network Protocol on PSoC® 3 and PSoC 5

WUSB-NL Radio Driver API Guide

User Module Datasheet: SPI Master Datasheet SPIM V 1.20 (CY7C639/638/633/602/601xx, CYRF69xx3)

How to Configure the CyFi Protocol Data Rate in CY3271 Kit - KBA84673

User Module Datasheet: CapSense® Sigma-Delta Datasheet CSD V 2.10 (CY8C20x66A, CY8C20x36A, CY8C20x46A, CY8C20x96A, CY8C20xx6AS, CY8C20xx6H, CY8C20XX6L, CYONS2110-LBXC, CYONSFN2053-LBXC, CYONSFN2061-LBXC, CYONSFN2151-LBXC, CYONSFN2161-LBXC, CYONSFN2162-LBXC)

User Module Datasheet: Successive Approximation ADC Datasheet SAADC V 1.0 (CY7C603xx)

User Module Datasheet: I2C Bootloader Datasheet BootLdrI2C V 2.50 (CY7C604xx, CY7C643xx, CY8C20xx6/A/AN/AS/L/H, CY8C20xx7/S, CY8CTST200, CY8CTMG200, CY8CTMA300, CYONS2xxx, CYONSCN2xxx, CYONSFN2xxx, CYONSKN2xxx, CYONSTB2xxx, CYONSTN2xxx, CYRF89x35)

CY4636 WirelessUSB LP (TM) Keyboard-Mouse Reference Design Kit (Version 1.0) (OBSOLETE)

Wireless Keyboard Design - KBA82952

Cypress’s Portfolio to Support a Presenter’s Design - KBA82956

Cypress’s Portfolio to Support RF Remote Design - KBA82958

Wireless Mouse Design - KBA82950

Cypress’s Portfolio to Support a Dongle Design - KBA82953

Different Kinds of Binding Mechanisms Supported by WUSB-NL - KBA82959

CY4672 PRoC™ LP Reference Design Kit

Cypress Introduces PRoC™-UI One-Chip Solution Combining a 2.4-GHz, Low-Power Wireless Radio and Capacitive Touch

User Module Datasheet: CyFi™ Star Network Protocol Stack Datasheet CYFISNP V 2.00 ( CY7C601/602xx, CYRF69x13)

User Module Datasheet: EEPROM Datasheet E2PROM V 0.40 (CY7C633/638/639/601/602xx, CYRF69xx3)

Forward Error Correction Support in WirelessUSB-NL - KBA82944

Data Whitening Support in WirelessUSB-NL - KBA82945

AgileHID™ - KBA82946

Different Modules of AgileHID for Wireless Devices - KBA82947

Advantages of Closed-Loop Phase Locked Loop (PLL) - KBA82948

Applications Supported by PRoC-EMB - KBA83002

I/Os available for Capacitive Sensing in PROC-UI – KBA82019

Using an External MCU with PROC-UI - KBA82025

Auto Tuning for Capacitive Sensors with PROC-UI - KBA82023

Development Environment Needed to Configure PROC-UI - KBA82018

Availability of silicon for PROC-UI - KBA82015

Applications supported by PRoC-TT - KBA82012

Applications supported by PRoC-CS - KBA82013

Applications supported with PRoC-UI - KBA82011

Avoiding Interference in the 2.4-GHz ISM Band

The Need for RF in Remote Controls

How to Simplify Debugging and Documenting Wireless Applications

Availability of modules for PRoC UI - KBA82016

Applications supported by PROC-USB - KBA82014

Windows 8 Support on PROC-UI - KBA82028

Advantages of Designing with PROC-UI - KBA82026

Developing Gestures and Modifying Existing Gestures on PROC-TT - KBA82022

Gestures supported by PROC-TT - KBA82021

enCoRe™ V CY7C643xx, enCoRe™ V LV CY7C604xx Technical Reference Manual (TRM)

User Module Datasheet: SPI-based CyFi™ Transceiver Data Sheet CYFISPI (CY7C638x3, CY7C601/602xx, CYRF69103, CYRF69213)

Cypress USB Solutions

AN6066 - Wireless Binding Methodologies

User Module Datasheet: WIRELESSUSBLS RADIO DATA SHEET, WIRELESSUSBLS V1.0(CYWUSB6953)

CyFi™ Star Network Protocol on PSoC^® 3 and PSoC 5