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Stanley Fatmax Xtreme Retractable Utility Knife - Page 7 Questions & Answers
How can I adjust the time on my weather station model #sgr72914?
- Access the Time Setting Mode:
- Locate the 'Set' or 'Settings' button on your weather station. This button is typically found on the front or the back of the unit.
- Press and hold the 'Set' or 'Settings' button for about 3 to 5 seconds. This action should access the time setting mode, where you can adjust the time.
- Adjust Hour and Minutes:
- Once in the time setting mode, use the 'Up' or '+' button to increase the hours and the 'Down' or '-' button to decrease the hours.
- After setting the correct hour, press the 'Set' or 'Settings' button again to move to the minutes setting.
- Use the 'Up' or '+' and 'Down' or '-' buttons to adjust the minutes accordingly.
- Confirm the Time:
- Once you have set the correct time, press the 'Set' or 'Settings' button again to confirm and exit the time setting mode.
- Check the Time Display:
- After setting the time, check the display to ensure that the time is displayed correctly.
My LM 30 laser won't start-has brand new batteries
1.Remove the batteries to determine if they have been properly installed in the unit. I know I've messed up installing multiple batteries is a unit. Ck just incase. :)
2.Then the battery unit can be removed 10 seconds to allow the capacitor to discharge and reset the unit.
Please can I have assistance on the recalibration of my super pro miosture meter. The machine is measuring 2 % higher then it should on maize
Sure, I'd be happy to help you recalibrate your Super Pro moisture meter. Here are the steps you can follow:
- Find a reference sample: You will need a sample of maize that has a known moisture content that is different from the current reading on your moisture meter. You can either purchase a certified reference sample or make your own by drying a sample of maize in an oven or using a moisture analyzer.
- Adjust the calibration: Turn on your Super Pro moisture meter and press the "calibrate" button. Using the reference sample, adjust the calibration of the moisture meter by adding or subtracting the required percentage points to match the known moisture content of the reference sample. For example, if the reference sample has a moisture content of 14% and your moisture meter is reading 16%, you will need to subtract 2% from the calibration.
- Verify the calibration: After adjusting the calibration, test the moisture meter again using the reference sample to verify that the readings match the known moisture content. If the readings do not match, adjust the calibration again until you get an accurate reading.
- Document the calibration: Once you have verified the calibration, document the adjustments you made and the reference sample used for future reference.
It's important to note that different types of maize can have different calibration requirements, so it's a good idea to recalibrate your moisture meter regularly and for different types of maize samples. You can also refer to the manufacturer's instructions for specific calibration procedures for your Super Pro moisture meter.
My fluke 21 III doesn't read a/c or d/c voltage properly
If your Fluke 21 III multimeter is not reading AC or DC voltage properly and the ohms sign comes on in voltage mode, it may indicate a problem with the internal circuits of the multimeter or the leads. Here are some steps you can take to troubleshoot the issue:
- Check the leads: Ensure that the leads are properly connected to the multimeter and the test points. Make sure there are no breaks or cuts in the leads. Try using a different set of leads to see if the issue persists.
- Check the batteries: A weak or dead battery can affect the accuracy of your multimeter readings. Check the batteries to ensure they are properly installed and have sufficient charge.
- Check the settings: Make sure that you have selected the appropriate range and function on the multimeter for the measurement you are trying to take.
- Reset the multimeter: Reset the multimeter to its default settings to see if this resolves the issue.
If none of the above steps resolve the issue, it may indicate a problem with the internal circuits of the multimeter, and it may need to be repaired or replaced.
Wiring diagram for 96 peterbilt 379 volt meter
Here is a possible wiring diagram for the voltmeter on a 1996 Peterbilt 379 with a C15 engine:
- The voltmeter gets power from the battery through a 5A fuse (F2) and a 10A circuit breaker (CB7).
- The voltmeter is grounded through a ground wire (GND) connected to the chassis.
- The voltmeter receives the signal from the alternator through a wire (ALT) connected to the alternator "sense" terminal.
- The voltmeter also receives a signal from the ignition switch through a wire (IGN) connected to the ignition switch "ACC" terminal.
Here is a possible wiring diagram based on this description:
Battery positive (+) ---[F2]---[CB7]--- Voltmeter (+) ' ' Battery ground (-) -------------[GND]--- Voltmeter (-) ' ' Alternator "sense" terminal ---[ALT]--- Voltmeter signal input ' ' Ignition switch "ACC" terminal ---[IGN]--- Voltmeter signal input
Note: This is just a possible wiring diagram and may not reflect the exact wiring configuration in your specific vehicle. It is always recommended to consult the wiring diagram provided in the vehicle's service manual or consult a qualified mechanic or electrician for assistance.
Snap-on Eco plus shows for example that 3.0 lbs transferred during ISV tank fill then immediately shows the tank having 1 lb 9oz what is wrong?
Based on the information provided, it's difficult to determine exactly what is causing the discrepancy between the amount of refrigerant transferred and the amount of refrigerant shown in the tank. However, here are a few potential explanations:
- Measurement error: It's possible that there was an error in measuring the amount of refrigerant transferred or the amount of refrigerant in the tank. For example, if the scale used to measure the refrigerant is not calibrated correctly, it could be providing inaccurate readings.
- Leaks: If there is a leak in the system, refrigerant could be escaping and not making it into the tank. This could result in a lower amount of refrigerant in the tank than expected.
- Temperature changes: The amount of refrigerant in a tank can be affected by temperature changes. If the refrigerant was transferred at a different temperature than the tank, it could result in a discrepancy in the amount of refrigerant shown in the tank.
- Software error: It's possible that there is an error in the software used to display the amount of refrigerant in the tank. This could be causing the incorrect reading.
It's important to troubleshoot the system to determine the root cause of the discrepancy and take appropriate action to address the issue.
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