Cypress CY7C67200 manual Crystal Pins Pin Name Pin Number, Boot Configuration Interface, Boot Mode

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CY7C67200

Crystal Pins

Table 13.Crystal Pins

Pin Name

Pin Number

XTALIN

G3

 

 

XTALOUT

G2

 

 

Boot Configuration Interface

EZ-OTG can boot into any one of four modes. The mode it boots into is determined by the TTL voltage level of GPIO[31:30] at the time nRESET is deasserted. Table 14 shows the different boot pin combinations possible. After a reset pin event occurs, the BIOS bootup procedure executes for up to 3 ms. GPIO[31:30] are sampled by the BIOS during bootup only. After bootup these pins are available to the appli- cation as GPIOs.

Table 14.Boot Configuration Interface

GPIO31

GPIO30

Boot Mode

(Pin 39)

(Pin 40)

 

0

0

Host Port Interface (HPI)

 

 

 

0

1

High Speed Serial (HSS)

 

 

 

1

0

Serial Peripheral Interface (SPI, slave

 

 

mode)

1

1

I2C EEPROM (Standalone Mode)

 

 

 

GPIO[31:30] must be pulled high or low, as needed, using resistors tied to VCC or GND with resistor values between 5K ohm and 15K ohm. GPIO[31:30] must not be tied directly to VCC or GND. Note that in Standalone mode, the pull ups on those two pins are used for the serial I2C EEPROM (if imple- mented). The resistors used for these pull ups must conform to the serial EEPROM manufacturer's requirements.

If any mode other then standalone is chosen, EZ-OTG will be in coprocessor mode. The device will power up with the appro- priate communication interface enabled according to its boot pins and wait idle until a coprocessor communicates with it. See the BIOS documentation for greater detail on the boot process.

Operational Modes

There are two modes of operation: Coprocessor and Standalone.

Coprocessor Mode

EZ-OTG can act as a coprocessor to an external host processor. In this mode, an external host processor drives EZ-OTG and is the main processor rather then EZ-OTG’s own 16-bit internal CPU. An external host processor may interface to EZ-OTG through one of the following three interfaces in coprocessor mode:

HPI mode, a 16-bit parallel interface with up to 16 MBytes transfer rate

HSS mode, a serial interface with up to 2M baud transfer rate

SPI mode, a serial interface with up to 2 Mbits/s transfer rate.

At bootup GPIO[31:30] determine which of these three inter- faces are used for coprocessor mode. Refer to Table 14 for details. Bootloading begins from the selected interface after POR + 3 ms of BIOS bootup.

Standalone Mode

In standalone mode, there is no external processor connected to EZ-OTG. Instead, EZ-OTG’s own internal 16-bit CPU is the main processor and firmware is typically downloaded from an EEPROM. Optionally, firmware may also be downloaded via USB. Refer to Table 14 for booting into standalone mode.

After booting into standalone mode (GPIO[31:30] = ‘11’), the following pins are affected:

GPIO[31:30] are configured as output pins to examine the EEPROM contents.

GPIO[28:27] are enabled for debug UART mode.

GPIO[29] is configured as OTGID for OTG applications on PORT1A.

If OTGID is logic 1 then PORT1A (OTG) is configured as a USB peripheral.

If OTGID is logic 0 then PORT1A (OTG) is configured as a USB host.

Ports 1B, 2A, and 2B default as USB peripheral ports.

All other pins remain INPUT pins.

Document #: 38-08014 Rev. *G

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Contents CY16 EZ-OTG FeaturesTypical Applications CY7C67200Processor Core Functional Overview IntroductionInterface Descriptions OTG Interface USB Interface Pins Pin Name Pin NumberOTG Interface Pins Pin Name Pin Number USB InterfaceSerial Peripheral Interface I2C Eeprom Interface Pins Pin Name Pin NumberSPI Interface Pins Pin Name Pin Number HSS Interface Pins Pin Name Pin NumberCharge Pump Interface HPI Interface Pins 1 Pin Name Pin NumberHost Port Interface HPI HPI Addressing HPI A10Booster Interface Charge Pump Interface Pins Pin Name Pin NumberCrystal Interface Pin Crystal Pins Pin Name Pin NumberBoot Configuration Interface Boot ModePower Savings Mode Description Power Savings and Reset DescriptionSleep Memory Map Registers Hardware Revision Register 0xC004 R Bank Register 0xC002 R/WBank Register Example Hex Value Binary Value ReservedCPU Speed Definition Processor Speed CPU Speed Register 0xC008 R/WHSS Wake Enable Bit Host/Device 2 Wake Enable BitHost/Device 1 Wake Enable Bit OTG Wake Enable BitHost/Device 2 Interrupt Enable Bit Halt Enable BitOTG Interrupt Enable Bit SPI Interrupt Enable BitTimer 0 Interrupt Enable Bit Uart Interrupt Enable BitGpio Interrupt Enable Bit Timer 1 Interrupt Enable BitLS Pull-up Enable Bit Port 2A Diagnostic Enable BitPort 1A Diagnostic Enable Bit Pull-down Enable BitReset Strobe Bit Timeout Flag BitLock Enable Bit WDT Enable Bit0xC08A/0xC0AA Timer n Register R/WGeneral USB Registers USB Registers Register Name Address SIE1/SIE2Resistors Function Select Enable Mode Select BitPort a Resistors Enable Bit USB Data Line Pull-up and Pull-down Resistors Mode Port nArm Enable Bit Preamble Enable BitSync Enable Bit ISO Enable BitHost n Count Register R/W Host n Address Register R/WHost 1 Count Register 0xC084 Host 2 Count Register 0xC0A4 NAK Flag Bit Error Flag BitUnderflow Flag Bit Stall Flag BitPID Select ACK Flag BitHost n PID Register W PID Select DefinitionHost n Device Address Register W Host n Count Result Register RPort a Wake Interrupt Enable Bit Vbus Interrupt Enable BitID Interrupt Enable Bit SOF/EOP Interrupt Enable BitPort a Wake Interrupt Flag Bit Vbus Interrupt Flag BitID Interrupt Flag Bit SOF/EOP Interrupt Flag BitCount Bits Count field sets the SOF/EOP counter duration Host n SOF/EOP Count Register R/WHost n SOF/EOP Counter Register R Register Name Address Device 1/Device Host n Frame Register RUSB Device Only Registers Reserved USB Device Only RegistersEnable Bit IN/OUT Ignore Enable BitStall Enable Bit NAK Interrupt Enable BitDevice n Endpoint n Count Register R/W Device n Endpoint n Address Register R/WOUT Exception Flag Bit Device n Endpoint n Status Register R/WException Flag Bit Setup Flag BitTimeout occurred Timeout condition did not occur Error occurred Error did not occurDevice n Endpoint n Count Result Register Device n Endpoint n Count Result Register R/WEP7 Interrupt Enable Bit Device n Interrupt Enable Register R/WSOF/EOP Timeout Interrupt Enable Bit Reset Interrupt Enable BitEP1 Interrupt Enable Bit EP5 Interrupt Enable Bit EP2 Interrupt Enable BitEP4 Interrupt Enable Bit EP3 Interrupt Enable BitDevice n Status Register R/W Device n Address Register WEP5 Interrupt Flag Bit Reset Interrupt Flag BitEP7 Interrupt Flag Bit EP6 Interrupt Flag BitDevice n SOF/EOP Count Register W SOF/EOP Timeout Flag BitSOF/EOP Timeout Interrupt Counter Bits Device n Frame Number Register RVbus Discharge Enable Bit Vbus Pull-up Enable BitReceive Disable Bit Charge Pump Enable BitVbus Valid Flag Bit Write Protect Enable BitSAS Enable Bit Mode Select Definition Gpio Configuration 108 111 ReservedInterrupt 0 Polarity Select Bit HSS Enable BitSPI Enable Bit Interrupt 0 Enable BitGpio 1 Input Data Register 0xC026 R Gpio 0 Input Data Register 0xC020 RGpio 0 Direction Register 0xC022 R/W HSS Registers Gpio 1 Direction Register 0xC028 R/WHSS Registers Register Name Address RTS Polarity Select Bit Xoff Enable BitCTS Enable Bit Receive Interrupt Enable BitReceive Packet Ready Flag Bit Packet Mode Select BitTransmit Ready Bit Receive Overflow Flag BitTransmit Gap Select Bits HSS Transmit Gap Register 0xC074 R/WHSS Data Register 0xC076 R/W HSS Receive Counter Register 0xC07A R/W HSS Receive Address Register 0xC078 R/WHPI Registers Register Name Address HSS Transmit Address Register 0xC07C R/WHSS Transmit Counter Register 0xC07E R/W HPI RegistersHPI Breakpoint Register 0x0140 R Vbus to HPI Enable BitID to HPI Enable Bit SOF/EOP2 to HPI Enable BitReset2 to HPI Enable Bit SOF/EOP2 to CPU Enable BitSOF/EOP1 to HPI Enable Bit SOF/EOP1 to CPU Enable BitHPI Mailbox Register 0xC0C6 R/W SIEXmsg Register WSIE1msg Register SIE2msg Register Data BitsSOF/EOP2 Flag Bit Reset2 Flag BitVbus Flag Bit ID Flag BitSPI Registers Register Name Address SPI Registers Reset1 Flag BitDone1 Flag Bit Mailbox Out Flag BitMaster Enable Bit 3Wire Enable BitPhase Select Bit Master Active Enable BitFifo Init Bit Byte Mode BitRead Enable Bit SCK Strobe BitReceive Bit Length Bits Transmit Interrupt Enable BitTransfer Interrupt Enable Bit Fifo Error Flag BitTransmit Interrupt Clear Bit CRC Mode Definition CRCMode CRC PolynomialTransmit Interrupt Flag Bit Transfer Interrupt Flag BitOne in CRC Bit CRC Enable BitCRC Clear Bit Receive CRC BitSPI Transmit Count Register 0xC0DA R/W SPI Transmit Address Register 0xC0D8 R/WUart Registers Register Name Address SPI Receive Address Register 0xC0DC R/WSPI Receive Count Register 0xC0DE R/W Uart RegistersUart Baud Select Definition Baud Rate DIV8 = Uart Enable BitScale Select Bit Baud Select BitsUart Data Register 0xC0E4 R/W Transmit Full BitPin Descriptions Pin DiagramPin Descriptions Name Type A0 HPI A0 GPIO20 General Purpose IOA1 HPI A1 GPIO19 General Purpose IOCrystal Requirements XTALIN, Xtalout Booster Power Input 2.7V toAbsolute Maximum Ratings Operating ConditionsDC Characteristics Reset Timing AC Timing CharacteristicsI2C Eeprom Timing Clock TimingParameter Description Min Typical Max Unit HPI Host Port Interface Write Cycle Timing Read Cycle Time Document # 38-08014 Rev. *G Data Access Time, from HPInRD fallingHPI Host Port Interface Read Cycle Timing Read Pulse WidthHSS Block Mode Transmit HSS Byte Mode TransmitHSS Byte and Block Mode Receive Hssrts Hsscts Hardware CTS/RTS HandshakeRegister Summary Register SummaryGPIO31 GPIO30 GPIO29 SE0 SOF/EOP2 Ball 7.00 mm x 7.00 mm x 1.2 mm Fbga BA48 Package DiagramOrdering Information Ordering Information Ordering Code Package Type PB-FreeDocument History Issue Orig. Description of Change Date
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