User manual
Protocol Analysis
R&S
®
RTO
264User Manual 1316.0827.02 ─ 06
For "7 bit" and "10 bit", enter the address bits in the Addr. min / Addr. max field, and use
the "R/W bit" on page 264 field to select the transfer direction.
For "7+1 bit", enter the seven address bits and also the R/W bit in the "Address" field.
If the trigger type is "Address + data", you can set the address type "Any" to trigger on
data only, regardless of the address.
SCPI command:
TRIGger<m>:I2C:AMODe on page 649
Addr. min / Addr. max ← Address setup
Defines the bit pattern of the slave device address. The length of the entry is adjusted to
the selected address type. In binary format, use the following characters: 1; 0; or X (any
bit). The use of X is restricted to the "Address operator"s "Equal" and "Not equal".
The bit pattern editor helps you to enter the pattern in any format, see chapter 10.1.4,
"Bit Pattern Editor", on page 255.
Depending on the Condition, a specific address or an address range must be defined.
To trigger on any address, set the "Address operator" to "Equal" and enter X for each
address bit.
SCPI command:
TRIGger<m>:I2C:ADDRess on page 650
TRIGger<m>:I2C:ADDTo on page 651
Condition ← Address setup
Sets the operator to set a specific address ("Equal" or "Not equal") or an address range.
The address values are set with Addr. min / Addr. max.
SCPI command:
TRIGger<m>:I2C:ACONdition on page 650
R/W bit ← Address setup
Toggles the trigger condition between Read and Write access of the master. Select
"Either" if the transfer direction is not relevant for the trigger condition.
SCPI command:
TRIGger<m>:I2C:ACCess on page 648
Address OR conditions
Triggers on one to four address conditions. For each condition to be used, select "Mon-
itor".
Each condition requires an exact address. The definition of address ranges is not possible
here. X (don't care) can be used.
SCPI command:
TRIGger<m>:I2C:ADOR<n>:ENABle on page 651
TRIGger<m>:I2C:ADOR<n>:ADRType on page 651
TRIGger<m>:I2C:ADOR<n>[:VALue] on page 651
TRIGger<m>:I2C:ADOR<n>:RWBit on page 652
I²C