Table of Contents SOFTWARE .......................................................................................................................................... 2 PSOC DESIGNERTM ...................................................................................................................................... 2 PSOC EXPRESSTM ....................................................................................................................................... 3 COMPILERS ................
Low power, 350 nA RTC current . Capacitor or battery backup for RTC ¦ Watchdog timer ¦ Clock alarm with programmable interrupts ¦ Hands off automatic STORE on power down with only a small capacitor ¦ STORE to QuantumTrap™ initiated by software, device pin, or on power down ¦ RECALL to SRAM initiated by software or on power up ¦ Infinite READ, WRITE, and RECALL cycles ¦ High reliability . Endurance to 200K cycles . Data retention: 20 years at 55°C ¦ Single 3V operation with tolerance of +20%, –10
outputs • 6- to 82-MHz operating frequency range • Modulates external clocks including crystals, crystal oscillators, or ceramic resonators • Programmable modulation with simple R-C external loop filter (LF) • Center spread modulation • 3V-5V power supply • TTL-/CMOS-compatible outputs • Low short-term jitter • Low-power Dissipation — 3.3 VDC = 37 mW – typical — 5.0 VDC = 115 mW – typical • Available in 8-pin SOIC and TSSOP packages Applications • Desktop/notebook computers • Printers, copiers,
*B Revised October 26, 2005 [+] Feedback CY25566 Pin Description Pin Name Type Description 1 XIN/CLKIN I Clock or Crystal connection input. Refer to Table 1, Table 2, and Table 3 for input frequency range selection. 2 REFOFF I Input pin enables REFOUT clock at pin 3. REFOFF 400K. internal pull-up resistor. Logic “0” enables REFOUT, logic “1” disables REFOUT. Default = disabled. 3 REFOUT O Buffered, non-modulated output clock derived from XIN/CLKIN input frequency. There is a 180° phase shift fro
Overview The Cypress Envirosystems Wireless Pneumatic Thermostat (WPT) retrofits an existing pneumatic thermostat to provide Direct Digital Control (DDC) like zone control functionality at a fraction of the time and cost without disturbing occupants. The WPT enables remote monitoring of zone temperature, branch pressure, remote control of setpoints, and programmable setback or setup of the pneumatic HVAC systems. It also enables integration with utility Demand Response programs. The WPT USB Hub
Guaranteed by statistical correlation. Tested initially and after any design or process changes that may affect these parameters. 9. CMOS output buffer current and power dissipation specified at 50 MHz reference frequency. 10. Applies to REF and FB inputs only. 11. Test measurement levels for the CY7B9910 are TTL levels (1.5V to 1.5V). Test measurement levels for the CY7B9920 are CMOS levels (VCC/2 to VCC/2). Test conditions assume signal transition times of 2ns or less and output loading as sho
This kit contains a complete PSoC Express development environment including a large, full featured development board, fan modules, proto modules, 28-DIP samples, and a MiniProg Programmer. CY3235-PROXDET: The CapSense Proximity Detection Demonstration Kit allows quick and easy demonstration of a PSoC® CapSense-enabled device (CY8C21434) to accurately sense the proximity of a hand or finger along the Kit Includes: • Development Board • Four Fan Modules • Two Proto Modules • MiniProg Insystem leng
P u ll-u p Freq. Phase Modulating VCO Post CLKOUT Detector Charge Pump Waveform Dividers Divider Feedback Divider PLL GND VDD . M N Clock Input (SSCG Output) REFOUT Logic Control SDATA SCLOCK PWRDWN# Cypress Semiconductor Corporation • 3901 North First Street • San Jose, CA 95134 • 408-943-2600 Document #: 38-07531 Rev. ** Revised March 18, 2003 [+] Feedback CY25822-2 Pin Description Pin No. Pin Name Pin Type Pin Description 1 CLKIN Input 48-MHz or 66-MHz Clock Input. 2 VDD Power Power Supply fo
The frequency of the REF and FB inputs are fNOM/2 or fNOM/4 when the part is configured for a frequency multiplication by using a divided output as the FB input. 3. When the FS pin is selected HIGH, the REF input must not transition upon power up until VCC has reached 4.3V. Document Number: 38-07138 Rev. *B Page 3 of 19 [+] Feedback CY7B991 CY7B992 Figure 1 shows the typical outputs with FB connected to a zero skew output.[4] Figure 1. Typical Outputs with FB Connected to a Zero-Skew Output t –
The CY7C1353G is equipped with the advanced No Bus Latency™ (NoBL™) logic required to enable consecutive Read/Write operations with data being transferred on every clock cycle. This feature dramatically improves the throughput of data through the SRAM, especially in systems that require frequent Write-Read transitions. All synchronous inputs pass through input registers controlled by the rising edge of the clock. The clock input is qualified by the Clock Enable (CEN) signal, which when deasserte