ATmega64A
25.3.1
25.3.2
Bypass Register
The Bypass Register consists of a single Shift Register stage. When the Bypass Register is
selected as path between TDI and TDO, the register is reset to 0 when leaving the Capture-DR
controller state. The Bypass Register can be used to shorten the scan chain on a system when
the other devices are to be tested.
Device Identification Register
Figure 25-1 shows the structure of the Device Identification Register.
Figure 25-1. The Format of the Device Identification Register
LSB
0
MSB
31
Bit
Device ID
28
27
12
11
1
Version
4 bits
Part Number
16 bits
Manufacturer ID
1
11 bits
1-bit
25.3.2.1
25.3.2.2
Version
Version is a 4-bit number identifying the revision of the component. The JTAG version number
follows the revision of the device. Revision A is 0x0, revision B is 0x1 and so on.
Part Number
The part number is a 16-bit code identifying the component. The JTAG Part Number for
ATmega64A is listed in Table 25-1.
Table 25-1. AVR JTAG Part Number
Part Number
JTAG Part Number (Hex)
ATmega64A
0x9602
25.3.2.3
Manufacturer ID
The Manufacturer ID is a 11-bit code identifying the manufacturer. The JTAG manufacturer ID
for Atmel is listed in Table 25-2.
Table 25-2. Manufacturer ID
Manufacturer
JTAG Man. ID (Hex)
Atmel
0x01F
25.3.3
Reset Register
The Reset Register is a Test Data Register used to reset the part. Since the AVR tri-states port
pins when reset, the Reset Register can also replace the function of the unimplemented optional
JTAG instruction HIGHZ.
A high value in the Reset Register corresponds to pulling the External Reset low. The part is
reset as long as there is a high value present in the Reset Register. Depending on the Fuse set-
tings for the clock options, the part will remain reset for a Reset Time-out Period (refer to “Clock
Sources” on page 38) after releasing the Reset Register. The output from this data register is not
latched, so the reset will take place immediately, as shown in Figure 25-2.
260
8160C–AVR–07/09
ATMEL [ ATMEL ]
