Cypress CY7C68013A Portc Strobe Feature Timings, WR# Strobe Function when Portc is Accessed by

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CY7C68013A, CY7C68014A

CY7C68015A, CY7C68016A

10.5 PORTC Strobe Feature Timings

The RD# and WR# are present in the 100-pin version and the 128-pin package. In these 100-pin and 128-pin versions, an 8051 control bit can be set to pulse the RD# and WR# pins when the 8051 reads from or writes to PORTC. This feature is enabled by setting PORTCSTB bit in CPUCS register.

The RD# and WR# strobes are asserted for two CLKOUT cycles when PORTC is accessed.

The WR# strobe is asserted two clock cycles after PORTC is updated and is active for two clock cycles after that, as shown in Figure 15.

As for read, the value of PORTC three clock cycles before the assertion of RD# is the value that the 8051 reads in. The RD# is pulsed for 2 clock cycles after 3 clock cycles from the point when the 8051 has performed a read function on PORTC.

The RD# signal prompts the external logic to prepare the next data byte. Nothing gets sampled internally on assertion of the RD# signal itself, it is just a prefetch type signal to get the next data byte prepared. So, using it with that in mind easily meets the setup time to the next read.

The purpose of this pulsing of RD# is to allow the external peripheral to know that the 8051 is done reading PORTC and the data was latched into PORTC three CLKOUT cycles before asserting the RD# signal. After the RD# is pulsed, the external logic can update the data on PORTC.

Following is the timing diagram of the read and write strobing function on accessing PORTC. Refer to Section 10.3 and Section 10.4 for details on propagation delay of RD# and WR# signals.

Figure 15. WR# Strobe Function when PORTC is Accessed by 8051

tCLKOUT

CLKOUT

PORTC IS UPDATED

 

tSTBL

tSTBH

 

 

 

 

 

 

 

WR#

Figure 16. RD# Strobe Function when PORTC is Accessed by 8051

tCLKOUT

CLKOUT

8051 READS PORTC

DATA MUST BE HELD FOR 3 CLK CYLCES

DATA CAN BE UPDATED BY EXTERNAL LOGIC

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

tSTBL

 

tSTBH

 

 

 

 

 

 

 

 

 

 

 

 

RD#

Document #: 38-08032 Rev. *L

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Contents Cypress Semiconductor Corporation 198 Champion Court Features CY7C68013A/14A/15A/16AFeatures CY7C68015A/16A only Logic Block DiagramFeatures CY7C68013A/14A only Functional Overview ApplicationsBus-powered Applications USB Boot MethodsReNumeration Interrupt SystemFIFO/GPIF Interrupt INT4 INT2 USB InterruptsPriority INT2VEC Value Source Reset Pin Reset and WakeupProgram/Data RAM Reset Timing Values ConditionInternal Code Memory, EA = Inside FX2LP Outside FX2LPExternal Code Memory, EA = Register AddressesEndpoint Configurations High -speed Mode Setup Data BufferEndpoint RAM Size × 64 bytes Endpoints 0 × 512 bytesMaster/Slave Control Signals 12.5 Default Full-Speed Alternate SettingsExternal Fifo Interface ArchitectureECC Generation7 Autopointer AccessGpif USB Uploads and DownloadsCompatible with Previous Generation EZ-USB FX2 18 I2C ControllerPart Number Conversion Table Package Description20 CY7C68013A/14A and CY7C68015A/16A Differences Pin AssignmentsIfclk PE0 PE1128 Pin Tqfp CY7C68013A/CY7C68014ACY7C68013A/CY7C68014A CY7C68013A/CY7C68014A 56-pin Ssop Pin Assignment CY7C68013A/CY7C68014A 56-pin SsopCY7C68015A/CY7C68016A Pin QFN CY7C68013A 56-pin Vfbga Pin Assignment Top View CY7C68013A/15A Pin Descriptions FX2LP Pin Descriptions 128 100 56 VF Name Type DefaultPort 56 VF Name Type Default DescriptionFX2LP Pin Descriptions WU2 IFCONFIG1..0FIFOADR0 FIFOADR1PORTCCFG.0 GPIFADR0GPIFADR1 PORTCCFG.1T0OUT Port ET1OUT T2OUTINT6 RXD1OUTT2EX GPIFADR8Flagc FlagbCTL3 CTL4Ground FX2LP Register Summary Register SummaryRegister can only be reset, it cannot be set Epie EP0CS E6CB Flowstb DPL0 = both read/write bit Absolute Maximum Ratings Thermal CharacteristicsOperating Conditions ΘJc + θCaUSB Transceiver DC CharacteristicsAC Electrical Characteristics Program Memory Read Parameters Description Min Typ Max Unit Program Memory ReadClkout Data Memory Read Parameters Description Min Typ Max Unit Data Memory ReadCLKOUT17 Data Memory Write Parameters Description Min Max Unit Data Memory WriteStretch = WR# Strobe Function when Portc is Accessed by Portc Strobe Feature TimingsGpif Synchronous Signals Timing Diagram20 Gpif Synchronous SignalsSlave Fifo Synchronous Read Slave Fifo Synchronous Read Timing Diagram20Slave Fifo Asynchronous Read Slave Fifo Asynchronous Read Timing Diagram20Slave Fifo Synchronous Write Slave Fifo Synchronous Write Timing Diagram20Slave Fifo Synchronous Packet End Strobe Slave Fifo Asynchronous WriteSlave Fifo Asynchronous Packet End Strobe Slave Fifo Synchronous Write Sequence and Timing DiagramSlave Fifo Address to Flags/Data Slave Fifo Output EnableSlave Fifo Synchronous Address FIFOADR10 to SLRD/SLWR/PKTEND Setup TimeSlave Fifo Asynchronous Address RD/WR/PKTEND to FIFOADR10 Hold TimeSingle and Burst Synchronous Read Example Sequence Diagram10.17.2 Single and Burst Synchronous Write Slave Fifo Asynchronous Read Sequence and Timing Diagram20 Sequence Diagram of a Single and Burst Asynchronous ReadSlave Fifo Asynchronous Write Sequence and Timing Diagram20 Sequence Diagram of a Single and Burst Asynchronous WriteIdeal for non-battery powered applications Ideal for battery powered applicationsOrdering Information Development Tool KitLead Shrunk Small Outline Package O56 Package DiagramsLead QFN 8 x 8 mm LF56A Pin Thin Plastic Quad Flatpack 14 x 20 x 1.4 mm A100RA Lead Thin Plastic Quad Flatpack 14 x 20 x 1.4 mm A128 Vfbga 5 x 5 x 1.0 mm 0.50 Pitch, 0.30 Ball BZ56 PCB Layout RecommendationsCross-section of the Area Underneath the QFN Package Quad Flat Package No Leads QFN Package Design NotesIssue Orig. Description of Change Date Pyrs Cmcc

CY7C68013A specifications

The Cypress CY7C68013A is a high-performance USB microcontroller that belongs to Cypress's FX2LP family, specifically designed for USB applications. This microcontroller is well-regarded for its versatility, making it a popular choice for developers engaged in USB-enabled projects.

One of the main features of the CY7C68013A is its ability to support USB 2.0, with both high-speed (480 Mbps) and full-speed (12 Mbps) operation. This capability allows developers to take full advantage of the USB interface for data transfer, making it suitable for applications that require fast and efficient data communication. The device integrates a USB controller along with an 8051-compatible microcontroller, providing a seamless interface for USB transactions while also allowing for custom processing tasks.

The CY7C68013A offers 32 KB of internal RAM, which is a valuable resource for data buffering and temporary storage during data transfer operations. Additionally, it includes a programmable 8-bit I/O interface, which can be tailored to various application needs, facilitating control over peripheral devices. The microcontroller also features a 16-bit address bus and a 16-bit data bus, enhancing its ability to interface with external memory and components.

In terms of development, moving from concept to production becomes easier due to the availability of development kits and software support. The CY7C68013A is compatible with Cypress's EZ-USB development environment, which includes APIs and libraries that simplify the coding process. This software support empowers developers to create sophisticated USB-related applications without needing extensive background knowledge in USB protocol intricacies.

Regarding power efficiency, the CY7C68013A operates at low power consumption levels, making it suitable for battery-operated devices. It supports various low-power modes, which further enhances its appeal for portable applications.

Overall, the Cypress CY7C68013A stands out for its robust features, flexibility, and ease of use, making it an ideal choice for engineers working on USB-centric designs. Its combination of high-speed USB functionality, ample internal resources, and strong software support positions it as a go-to microcontroller for a wide variety of applications, ranging from consumer electronics to industrial systems.
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