CY7C68300C CYPRESS [Cypress Semiconductor], CY7C68300C Datasheet - Page 19

CY7C68300C

Manufacturer Part Number

CY7C68300C

Description

Manufacturer

CYPRESS [Cypress Semiconductor]

Datasheet

1.CY7C68300C.pdf (42 pages)

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Current page: 19 of 42
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Document 001-05809 Rev. *A

Fused Memory Data

When no EEPROM is detected at startup, the AT2LP

enumerates with the VID/PID/DID values that are stored in the

fused memory space. These values can be programmed into

the AT2LP during chip manufacturing for high volume applica-

tions to avoid the need for an external EEPROM in some

designs. Contact your local Cypress Semiconductor sales

office for more information on this feature.

If no factory programming has been done, the values returned

from the fused memory space would all be 0x00, which is not

a valid mode of operation. In this case the chip uses the

manufacturing mode and return the default descriptors

(VID/PID of 0x4B4/0x6830). An EEPROM must be used with

designs that do not use factory-programmed chips in order to

identify the device as your company’s product.

Normal Mass Storage Mode

In Normal Mass Storage Mode, the chip behaves as a USB 2.0

to ATA/ATAPI bridge. This includes all typical USB device

states (powered, configured, etc.). The USB descriptors are

returned according to the values stored in the external

EEPROM or fused memory space. A unique serial number is

required for Mass Storage Class Bulk-Only Transport

compliance, which is one reason why an EEPROM or

factory-programmed part is needed.

Board Manufacturing Test Mode

In Board Manufacturing Test Mode the AT2LP behaves as a

USB 2.0 device but the ATA/ATAPI interface is not fully active.

This mode must not be used for mass storage operation in a

finished design. In this mode, the AT2LP allows for reading

from and writing to the EEPROM, and for board level testing,

through vendor specific ATAPI commands utilizing the CBW

Command Block as described in the USB Mass Storage Class

Bulk-Only Transport Specification. There is a vendor-specific

Table 7. Command Block Wrapper

0–3

4–7

8–11 (08h–0Bh)

12 (0Ch)

13 (0Dh)

14 (0Eh)

15–30 (0Fh1Eh)

Offset

Dir

Reserved (0)

Obsolete

Reserved (0)

CBWCB (CfgCB or MfgCB)

dCBWDataTransferLength

DCBWSignature

bwCBWFLAGS

ATAPI command for EEPROM accesses (CfgCB) and one for

board level testing (MfgCB), as described in the following

sections.

There is a convenient method available for starting the AT2LP

in Board Manufacturing Test Mode to allow reprogramming of

EEPROMs without a mass storage device attached. If the ATA

Reset (ARESET#) line is LOW on power up, the AT2LP enters

Board Manufacturing Test Mode. It is recommended that a 10k

resistor be used to pull ARESET# to LOW. An easy way to pull

the ARESET# line LOW is to short pins 1 and 3 on the 40-pin

ATA connector with a 10k resistor, that ties the ARESET# line

to the required pull down on DD7.

CfgCB

The cfg_load and cfg_read vendor-specific commands are

passed down through the bulk pipe in the CBWCB portion of

the CBW. The format of this CfgCB is shown below. Byte 0 is

a vendor-specific command designator whose value is config-

urable and set in the configuration data (address 0x04). Byte 1

must be set to 0x26 to identify it as a CfgCB command. Byte2

is reserved and must be set to zero. Byte 3 is used to

determine the memory source to write/read. For the AT2LP,

this byte must be set to 0x02, indicating the EEPROM is

present. Bytes 4 and 5 are used to determine the start

address, which must always be 0x0000. Bytes 6 through 15

are reserved and must be set to zero.

The data transferred to the EEPROM must be in the format

specified in

size is 255 bytes.

The data transfer length is determined by the CBW Data

Transfer

(dCBWDataTransferLength) of the CBW (refer to

The type/direction of the command is determined by the

direction bit specified in byte 12, bit 7 (bmCBWFlags) of the

CBW (refer to

dCBWTag

Bits

Length

Table 11

Reserved (0)

Table

CY7C68300C/CY7C68301C

CY7C68320C/CY7C68321C

bCBWCBLength

of this data sheet. Maximum data transfer

7).

specified

bCBWLUN

bytes

Page 19 of 42

through

Table

7).

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