Specifications
Table Of Contents
- General Information
- Preparing for Use
- To inspect package contents
- To connect power
- To connect the mouse, keyboard, LAN, printer, and GPIB cable
- To connect the standard 10073C probes
- To connect optional InfiniiMax oscilloscope probes
- To connect the digital probe
- Digital probe lead set
- To tilt the oscilloscope upward for easier viewing
- To turn on the oscilloscope
- To turn off the oscilloscope
- To verify basic oscilloscope operation
- Installing application programs on Infiniium
- Changing Windows System Settings
- To clean the oscilloscope
- Testing Performance
- Calibrating and Adjusting
- Troubleshooting
- To install the fan safety shield
- To troubleshoot the oscilloscope
- Primary Trouble Isolation
- No Display Trouble Isolation
- To check the backlight inverter voltages
- To check the display board video signals
- Power Supply Trouble Isolation
- To check probe power outputs
- To Check the keyboard
- To check the LEDs
- To check the motherboard, CPU, and RAM
- To setup the BIOS
- To troubleshoot the acquisition system
- Software Revisions
- Replacing Assemblies
- To return the oscilloscope to Agilent Technologies for service
- To remove and replace the top cover
- To remove and replace the bottom sleeve
- To disconnect and connect Mylar flex cables
- To remove and replace the CD-ROM drive
- To remove and replace the AutoProbe assembly
- To remove and replace the internal digital input cable (MSO models only)
- To remove and replace the backlight inverter board
- To remove and replace the front panel assembly
- To remove and replace the keyboard, touch screen, and flat-panel display assemblies
- To remove and replace the acquisition board assembly
- To remove and replace the PCI bridge board
- To remove and replace the display board
- To remove and replace the hard disk drive
- To remove and replace the motherboard
- To replace the Intel motherboard with the ADLINK motherboard
- To remove and replace the power supply
- To remove and replace the fan controller board
- To remove and replace a fan
- To remove and replace the probe power and control assembly
- Replaceable Parts
- Theory of Operation
- Index
Chapter 3: Testing Performance
To test single cursor voltage measurement accuracy with offset
43
To test single cursor voltage measurement accuracy with offset
The single cursor accuracy specification is derived from the Dual Cursor and Offset accuracy
specifications. By testing single cursor accuracy with offset, both Dual Cursor and Offset
accuracies are tested at the same time. This eliminates the need to do separate tests for each
specification.
This test verifies the voltage measurement accuracy of the oscilloscope. The measurement is
made using dual-cursor automatic measurement so that offset errors are not a factor.
A power supply provides a reference voltage to check voltage measurement accuracy. The actual
supply voltage is monitored for accuracy using a NIST-traceable voltmeter (especially at low
voltages). A DC blocking capacitor and a BNC short are used to filter any noise generated by the
power supply so it does not appear at the oscilloscope input.
Specifications
Gain Accuracy: ± 1.25% of full scale at full resolution channel scale
Offset Accuracy: ±(1.25% of channel offset + 2% of full scale + 1 mV) at
full-resolution scale
Resolution: 8 bits, (0.4% of full scale without averaging); or 12 bits,
(0.024% of full scale with 32 averages) at full resolution scale
Dual Cursor Measurement: ±(gain accuracy + resolution)
Single Cursor Measurement: ±(gain accuracy + offset accuracy + resolution/2)
Equipment Required
Procedure
1
Connect the equipment.
See Figure 3-3.
a Use a BNC-to-banana adapter to connect a BNC cable to the power supply.
b Connect a BNC tee to the other end of the cable and connect the tee to channel 1 of the
oscilloscope.
c Connect another BNC cable to the tee at the oscilloscope and connect a BNC tee to the
other end of the cable.
d Connect the blocking capacitor to the BNC tee and connect the BNC short to the blocking
capacitor.
e Connect a BNC-to-banana adapter to the same BNC tee and connect the adapter to the
DVM input.
Equipment Critical Specifications Recommended Model/Part
Power Supply 7 mV to 30 VDC, 0.1 mV resolution Agilent 6114A
Digital Multimeter
(DMM)
Accuracy better than ± 0.1% of reading Agilent 34401A
Cables (2) BNC Agilent 10503A
Adapters (2) BNC (f) to banana (m) Pomona 1269
Adapters (2) BNC tee (m)(f)(f) Agilent 1250-0781
Blocking capacitor 0.18
µF Agilent 10240B
Shorting cap BNC Agilent 1250-0929