The LIN Protocol Specification is a low-speed communications standard used in many automotive applications, including body control, driver information, multimedia, climate control, safety equipment, cockpit electronics and Human Machine Interface (HMI). • LIN Bus Reference Design Board • Three preprogrammed and preinstalled PSoC devices (two CY8C27443-24PXI LIN bus slaves and one CY8C2714324PXI LIN bus master) • Software CD with Documentation, Example Projects, and Reference Design IP • 12V Powe
Table of Contents SOFTWARE .......................................................................................................................................... 2 PSOC DESIGNERTM ...................................................................................................................................... 2 PSOC EXPRESSTM ....................................................................................................................................... 3 COMPILERS ................
Aggregate throughput of up to 12 Gbits/second ¦ Second-generation HOTLink® technology ¦ Compliant to multiple standards . SMPTE-292M, SMPTE-259M, DVB-ASI, Fibre Channel, ESCON, and Gigabit Ethernet (IEEE802.3z) . 10 bit uncoded data or 8B/10B coded data ¦ Truly independent channels . Each channel is able to: • Perform reclocker function • Operate at a different signaling rate • Transport a different data format ¦ Internal phase-locked loops (PLLs) with no external PLL components ¦ Selectable dif
BiCMOS technology Functional Description The CYV15G0104TRB Independent Clock HOTLink II™ Serializer and Reclocking Deserializer is a point-to-point or point-to-multipoint communications building block enabling transfer of data over a variety of high-speed serial links including SMPTE 292M and SMPTE 259M video applications. It supports signaling rates in the range of 195 to 1500 Mbps per serial link. The transmit and receive channels are independent and can operate simultaneously at different rat
The charger remains in the Charge Complete state and the charging process can be restarted if the voltage drops below some predefined level (8). The charging process can be terminated with an error if a total charge time-out or an operation charge time- out occurs, or if the battery voltage or charge current is higher than the charge termination voltage/current levels (4), (5). The charger from all states jumps to the Wait For Temperature state when the battery temperature is outside the allowed
An effective cell-balancing algorithm during both charge and discharge phases is presented. This charger can be used either as a standalone application to charge a battery pack with two serial connected Li-Ion/Li-Pol batteries or embedded in residential, office, and industrial applications. Introduction A modern portable system requires more operating voltage than a single-cell Lithium-ion (Li-Ion) or Lithium-polymer (Li- Pol) battery can provide. A serial connection results in a pack voltage eq
PWM: Pulse width modulator to regulate the charge current. VREF: Reference voltage source. TIMERs: Several timers are used by the CPU in charge and cell-balancing algorithms. Incremental ADC: Analog-to-digital converter to digitize the analog signals. INAMP: Instrumentation amplifier to measure charge voltage, current, and temperature. AMUX: Analog multiplexers. Figure 3 also contains a two-cell Li-Ion battery pack, a linear regulator (based on Q1, Q2), a cell-balancing circuit (based on Q4, Q5)
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
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
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