CY7C67200
Document #: 38-08014 Rev. *G Page 7 of 78
Crystal Pins
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.
GPIO[31:30] must be pulled high or low, as needed, using
resistors tied to V
CC
or GND with resistor values between 5K
ohm and 15K ohm. GPIO[31:30] must not be tied directly to
V
CC
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 Tab le 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.
Table 13.Crystal Pins
Pin Name Pin Number
XTALIN G3
XTALOUT G2
Table 14.Boot Configuration Interface
GPIO31
(Pin 39)
GPIO30
(Pin 40)
Boot Mode
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)
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