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12 

MEASURING FREQUENCY

  

WARNING:

  IF  YOU  TRY  TO  MEASURE  THE  FREQUENCY  OF     

A  SIGNAL  THAT  EXCEEDS  750  VOLTS  AC  RMS,  YOU  MIGHT 

DAMAGE,  YOUR  METER  AND  EXPOSE  YOURSELF  TO  A         

SEVERE SHOCK HAZARD.

  

Follow these steps to measure the frequency of a signal.  

•   Press dBm/Hz. kHz appears in the display. 

•   Plug the red test lead into the V Hz terminal and the black test lead 

into the COM terminal. 

•   Connect the black probe a ground reference for the signal, and con-

nect the red probe to the signal source. 

The meter displays the measured frequency.  

Notes: 

Because measuring frequencies takes several seconds, the keyboard 

might be slow to respond to key presses.  

The meter uses a 1 Hz gate signal to measure the frequency of signals 

below 4000 Hz. You might have to wait a few seconds for the display to 

stabilize.  

For signals above 4000 Hz, you might have to manually set the fre-

quency range to prevent the meter from displaying a harmonic of the 

actual frequency. (See page 13, 

M

ANUALLY

 S

ELECTING

 

THE

 R

ANGE

.) 

The meter does not beep when it updates MIN/MAX when you measure 

frequency, even if you have turned on the beep option.  

 

Notes: 

If you set the meter for DC current, the (–) sign appears or disappears 

to indicate the polarity of the measured current.

  

The 400 mA and the 4000  A ranges are fuse-protected. The 10A range 
is not fuse-protected.

  

If the meter blows a fuse while you measure current, the meter displays 

the overrange indication or 0.

  

If the meter displays the overrange indication when you measure AC 

current, and the circuit does not exceed the AC current in the present 

range, the circuit is exceeding the meter's DC rating.  

For example, if you try to measure a DC power supply's AC ripple cur-

rent, the signal has both an AC and DC component. If the DC compo-

nent exceeds the meter's rating, the meter displays the overrange indi-

cation. To measure this current, you must externally block the DC com-

ponent.  

Summary of Contents for 22-175a

Page 1: ...tage capacitors Frequency Counter measures frequencies up to 2 MHz One Finger Function Selector makes it easy to use your meter when you have only one hand free Micronta 22 175a Basic Operation Manual...

Page 2: ...es amongst a collection of components use the HOLD function in combination with MIN MAX mode 1 Insert the first component in the OHMS DIODE CAP socket or attach leads appropriately 2 Press AUTO MAN to...

Page 3: ...G AN AC VOLTAGE ON A DC BIAS To measure an AC voltage superimposed on a DC voltage source bias follow the steps for measuring an AC voltage Caution Never try to measure an AC voltage that is riding on...

Page 4: ...he circuit Apply power to the circuit If the measurement is greater than the selected range the meter displays the overrange indication Page 3 OVERRANGE INDICATION Press VOLTS AMPS to select a higher...

Page 5: ...t the fre quency range to prevent the meter from displaying a harmonic of the actual frequency See page 13 MANUALLY SELECTING THE RANGE The meter does not beep when it updates MIN MAX when you measure...

Page 6: ...asure the resistance of a component in a circuit discon nect one side of the component you are testing This prevents other components in the circuit from affecting the reading When you touch the probe...

Page 7: ...hFE reading Do not con nect the test leads to a voltage source during this measurement You cannot measure the hFE of a transistor that is connected in a circuit You cannot measure the hFE of a FET or...

Page 8: ...you determine the forward voltage for diodes You can use this function when you need to match diodes Press DIODE CAP so that appears in the display Plug the red test lead into the terminal and the bl...

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