Hioki LR8400-92, Инструкция по эксплуатации

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4. Configure settings.
-1. Select the “PV Mode Set ON” setting on the Measurement Settings screen.
Settings
Setting Description
Solar cell rated output
[kW]
Enter the photovoltaic cell rated output or photovoltaic cell capacity for the solar panel being
measured. If measuring a branch circuit, for example in order to investigate a failed string, enter the
total rated output for the target photovoltaic cell only.
Cell temperature
coefficient
(maximum output)
Photovoltaic cells have negative temperature characteristics, meaning that their output decreases as
their surface temperature increases, and this coefficient expresses that relationship. This tendency is
particularly pronounced in crystalline silicon. Enter the appropriate value after checking the
specifications for the photovoltaic system. Following are reference values: Monocrystalline Si: -0.46;
polycrystalline Si: -0.49; amorphous Si: -0.26; CI(G)S: -0.46
Conditioner efficiency To display the AC estimated power (reference values) and AC estimated energy (reference values) on a
PV Waveform/Values screen, consult the power conditioner specifications and enter the device’s
conversion efficiency. The above value is subject to a larger error component in photovoltaic systems
that boost the voltage on the power conditioner side so that it is higher than the voltage at the
measurement point.
Other loss coefficient Coefficient for the effects of factors such as wiring resistance, dirt or snow buildup on the panel
surface, shadows, etc. A general average value of 0.07 is used by default. Change as necessary.
Pyranometer kind
Pyranometer output rate
Choose the pyranometer kind. Output rate initial value of the ML-01 is 20.00. Output rate initial value
of the ML-020VM is 140.00. When Sensitivity indicated on the label of Pyranometer is A, the
calculated value of 1000/A is set to output rate. Other pyranometer use Free Set.
Clamp sensor range Select the same range as set for the CT6590 Sensor Unit. Next, press the “Monitor” key on the LR8400
while the clamp is not applied to anything and adjust the 0ADJ knob on the CT6590 so that the “ch1-2
current” is 0.
PV mode initialize Resets the following settings to their default values: Solar cell rated output, Cell temperature
coefficient, Conditioner efficiency, Other loss coefficient Pyranometer kind, Pyranometer output rate,
and Clamp sensor range. (Please perform, when you initialize PV mode setup.)
Extended channel set An input can be added to ch1-5 to ch1-11.Voltage, Thermo couple, and a clamp (2000A, 200A, 100A,
20A, 10A) can be chosen from the input item of the channel which select check mark. (Please use it,
when you increase the measurement channel in PV mode.)
Interval Set the time interval at which to record data. The longer the time interval, the lower the cutoff
frequency, increasing noise rejection effectiveness. It is recommended to increase the recording
interval in environments that are prone to noise from inverters or other devices.
Cont Set whether to perform measurement for the set time or continuously.
OFF: Normal measurement (measurement for the specified recording time)
ON: Continuous measurement
Time/DIV Set the time per division.
Filter Set to either 60 Hz or 50 Hz depending on the power supply frequency in your region. The longer the
recording interval, the greater the noise rejection effectiveness.
Timer Set when you wish to perform measurement regularly. This setting allows the instrument to perform
measurement at a regular interval from the set start time to the set stop time.
Auto save Set when you wish to save data automatically during measurement. For more information, see “Saving
Data Automatically” in Section 6.2, “Saving Data,” of the LR8400 User Manual.
Note
･ For photovoltaic systems that boost the voltage on the power conditioner side so that it is higher than the value at the junction box
where the measurement is being taken, select channel number 1-1 on the Setting screen’s “CH” sheet and enter a voltage value as
appropriate for the “Offset” setting under “Scaling” so that the voltage shown on the LR8400-23’s Monitor screen matches the
photovoltaic system monitor’s DC voltage value.
･ The waveform data measured in "PV mode Set ON" LR8400-23 can be displayed by attached Logger Utility. However, "PV mode"
cannot be set up by Logger Utility.
5. Check measured values on the Monitor screen.
-1. If you encounter any of the following displays on the Monitor screen, refer to the indicated solution.
Display Solution
Erroneous voltage value
•
Check whether the 9322 Differential Probe switch is set to “DC.”
• Check whether the voltage range has been set to take into account the fact that the differential
probe’s output ratio is 1/1,000.
• For photovoltaic systems that boost the voltage on the power conditioner side so that it is higher
than the value at the junction box where the measurement is being taken, select channel number
1-1 on the Setting screen’s “CH” sheet and enter a voltage value as appropriate for the “Offset”
setting under “Scaling” so that the voltage shown on the LR8400’s Monitor screen matches the
photovoltaic system monitor’s DC voltage value.
•
Check whether the solar panels are susceptible to the effects of factors such as shadow, dirt, or
snow buildup.
•
There may be a wiring break on a string or a module failure.
Erroneous current value
•
Check the CT6590 Sensor Unit’s range setting.
• Check the LR8400’s clamp range setting.
•
Check the adjustment of the 0ADJ knob on the CT6590 Sensor Unit.
• Check the CT6590 Sensor Unit’s remaining battery life.
•
Check for noise sources such as inverters in the vicinity of the system.
• Check the site to see if the solar panels are susceptible to the effects of factors such as shadow,
dirt, or snow buildup.
• There may be a wiring break on a string or a module failure.
Erroneous insolation value • Check the wiring connections.
• Check for noise sources such as inverters in the vicinity of the system.
• Check the kind of pyranometer and output rate to be used.
Erroneous panel temperature
value
•
Check the installation of the thermocouple.
• Check for a broken thermocouple connection.
* Turning on the broken connection check on the
“
CH
”
sheet will cause
“
Burn Out
”
to be
displayed for the measurement data. However, the broken connection check function cannot be
used if the recording interval is 10 ms.
Significant difference between
power and estimated power
• Check the solutions for erroneous voltage, current, insolation, and panel temperature values
above.
• Check whether the PV specification setup have been set to appropriate value. In particular,
double-check the photovoltaic cell rated output and clamp range settings as these are easy to
overlook.
•
This error is more likely to occur in climates and time zones characterized by low insolation.
Perform measurement during a time of high insolation.
•
There may be a wiring break on a string or a module failure. Pinpoint the location of the failure,
for example by using an I/V tracer.
6. Start time-series recording.
If performing time-series recording, start recording. If the auto-save setting has been activated, data will be recorded simultaneously
to the instrument’s internal memory and the specified CF card or USB flash drive.
-1. Start measurement with the Start key.
-2. Stop measurement with the Stop key.
Note
The continuous operating time for the AA alkaline batteries
in the CT6590 Sensor Unit that ships with the CT9692-90
(or CT9693-90) Clamp Sensor is approximately 25 hours.
When performing time-series recording, use the optional
9445-02 AC Adapter.
7. Investigate the failed string. (See Figure 3.)
If the power value is significantly less than the estimated
power, a solar panel may have failed. The instrument can be
used to look for a string with a wiring break or a module
failure by means of the following method.
-1. Return to Step 3, “Place the sensors,” and connect the
9322 Differential Probe and CT9692-90 (or CT9693-90) Clamp Sensor
to the branch circuit as shown in Figure 3. Next, change the
photovoltaic cell rated output on the Measurement Settings
screen to the output value for the string being measured and
check the voltage, current, and output values on the Monitor screen.
Perform similar measurements for the other strings. Circuits with
relatively lower values may indicate wiring breaks or module failures.
-2. Without changing the settings made in (-1) above, cover the solar cell that you expect may be damaged with a piece of cloth, board,
or other material and compare the resulting voltage, current, and energy values with the corresponding values before the panel was
covered. Strings whose measured values do not change when they are covered may have a module failure or wiring break.
-3. The instrument can also be used as a normal data logger by using the “PV Mode Set OFF” setting. Up to 30 channels of current
data can be recorded by purchasing additional CT9692-90 (or CT9693-90) Clamp Sensors and BNC conversion cables. Current data
for multiple strings can be recorded simultaneously, allowing current variations to be investigated.
Note
•
The instrument cannot be used to search for failures or wiring breaks within individual modules. For such applications, please use a
thermal camera or dedicated checker.
3 2
Figure 3
Note: The version of the
software until the V9.12, it was
ML-020 only rather than
selection of pyranometer kind.
From V9.13, please use it to
select "ML-01", "ML-020", and
"Free Set" pyranometer kind
used as shown in the figure on
the left. (In the system screen,
you can check the version.)