Archived 4/2/10 – ETS-Lindgren HI-4456 Isotropic Electric Field Probe (Archived) User Manual

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HI

n

4456 Manual

Data from the A/D converter is fed to the microprocessor,

which transmits it to the receiver.

The EEPROM stores all calibration data for the probe.

Probe Power Supply

The HI

n

4456 probe is powered by a sealed rechargeable

3.6 VDC NiCd battery, which drives both the analog and

digital power supplies: separate power sources provide

isolation between the analog and digital circuitry. With

the probe switch in the ARM position, battery voltage is

applied to the power switch, which routes this voltage to

the power supply, enabling the microprocessor. The

power switch is controlled by a timer circuit. The timer

monitors the fiber optic connector input line to determine

whether the probe has received a command during a

specified period (several seconds). If no command is

received during this period, the timer signals the power

switch to disable the power supply and the

microprocessor. In essence, the probe goes dormant to

conserve battery power: only the fiber optic input

circuitry remains active in order to detect new

commands. When the next command from the receiver

reaches the probe, power is reapplied automatically and

the processor is reactivated, "waking up" the probe.

NOTE

The probe uses volatile random access memory (RAM).

If, for any reason, power to the probe is lost, the probe

must be re-zeroed.

Zeroing

When the receiver sends a zero command, the probe

must be in a zero field environment. This is because the

zero command causes the multiplexer (via the processor)

to perform a normal read cycle on the composite axis

signal. This procedure is executed for all ranges. When

Archived 4/2/10