Fieldpiece SM480VINT 4 Valve Digital Manifold with Built in Data Logging Instruction Manual
- May 15, 2024
- Fieldpiece
Table of Contents
SMAN™ Refrigerant
Manifold + Micron
Gauge (4 Port)
**OPERATOR’S MANUAL Model SM480V
**
Important Notice
This is not a consumer product. Only qualified personnel trained in service and
installation of A/C and/or refrigeration equipment shall use this product.
Read and understand this operator’s manual in its entirety before using your
SMAN Refrigerant Manifold to prevent injury or damage to you or equipment.
Class A2L/A2/A3 Refrigerant Safety Notice
Systems using class A2L (mildly flammable), c l ass A2 ( f l ammab l e), or c l
ass A3 (h i gh l y flammable) refrigerants can be tested safely ONLY by
qualified personnel explicitly trained in the use and handling of those
refrigerants. This manual is in no way a replacement for proper training.
WARNINGS
Do not apply more than 800 psig to any port of the manifold.
Ground properly when testing A2L/A2/A3 (hydrocarbon) refrigerants.
Do not use in the vicinity of explosive substances.
Inhalation of high concentrations of refrigerant vapor can block oxygen to the
brain causing injury or death.
Refrigerant liquid can cause frostbite.
Follow all equipment manufacturer’s testing procedures above those in this
manual in regards to properly servicing their equipment.
Quick Start
- Install the included six AA batteries into rear battery compartment.
- Press center blue button for 2 seconds to turn on your new SMAN manifold.
- Connect your hoses and pipe clamps to the SMAN manifold and to the system.
- View live pressures and temperatures.
- Use arrow buttons to select a refrigerant and view calculations in real-time!
What’s Included
- SM480V SMAN Refrigerant Manifold (4 Port)
- (2) TC24 Type K Pipe Clamp Thermocouples
- (1) ATA1 Type K Bead Thermocouple w/Clip
- (1) Year Warranty
- Operator’s Manual
Description
SMAN™ Refrigerant Manifolds give you the trust needed for doing the job right
the first time.
Your new Fi e l dp i ece man i fo l d has been upgraded for ultimate field
protection and long range wireless communication. The fully rubberized case
seals and protects from dust, bumps, and light rain. Use the heavy duty hook
to hang it in your work vehicle while protected by its large padded soft case.
Model SM480V is your testing hub at the jobsite.
In addition to the included thermocouples, you can connect wirelessly to
psychrometers, pipe clamps, and even a refrigerant scale. For example, assign
one psychrometer (model JL3RH) to return air and another to supply air to view
live temperature split across the evaporator directly.
Viewall you rmea sur ements and live calculations on the extra large LCD or
from a distance on your mobile device. A rolling list of your 10 most recently
used refrigerants is stored at the top of the main refrigerant list for quick
selection.
Verify proper charge by comparing actual superheat (SH) with target superheat
(TSH).
Use the outdoor dry bulb thermocouple and an optional indoor psychrometer for
live TSH calculations.
Pressure sensors automatically compensate for altitude and weather changes.
Use the internal vacuum gauge for fast and convenient monitoring of your
evacuations through the full bore 3/8” VAC port.
Features
Job Link® System Ready
- Long Wireless Range (350 feet/106 meters)
- Connect to Your Mobile Device Directly (page 38)
- Connect Job Link Tools Directly (page 38)
Real-time Calculations
- Superheat and Subcooling
- Vapor Saturation and Liquid Saturation
- Target Superheat (requires model JL3RH for real-time)
- T1-T2
(3) Type K Thermocouple Jacks
- Suction Line
- Liquid Line
- Outdoor Ambient
(4) Ports: (1) 3/8” (3) 1/4”
Built-in Micron Gauge
Tightness Test
Recent Refrigerant List
Sealed Sight Glass
Heavy Duty Rubberized Construction
Rugged Hanging Hook
Operation in the Rain (IP54)
Data Logging with USB Export
Display
°F: Temperature (Fahrenheit)
°C: Temperature (Celcius)
Psig: Pressure (pounds/in)
Bar: Pressure
MPa: Pressure (megapascals)
kPa: Pressure (kilopascals)
inHg: Negative Pressure (inches of mercury)
cmHg: Negative Pressure (centimeters of mercury)
Microns: Vacuum (microns of mercury)
Pascals: Vacuum
mBar: Vacuum (millibar)
mTorr: Vacuum (millitorr)
Torr: Vacuum (equivalent to mmHg)
∆/min: Vacuum Rate (differential per minute)
h:m:s: Hours:Minutes or Minutes:Seconds
SH: Superheat (suction line – vapor saturation)
SC: Subcooling (liquid saturation – liquid line)
VSAT: Vapor Saturation Temperature (from P-T chart)
LSAT: Liquid Saturation Temperature (from P-T chart)
TSH: Target Superheat (calculated from IDWB and ODDB)
T1-T2: Measurement Differential
SLT: Suction Line Temperature (low side)
LLT: Liquid Line Temperature (high side)
ODDB: Outdoor Dry Bulb Temperature
IDWB: Indoor Wet Bulb Temperature
LOG: Data Logging in Progress
Job: Job Slot (1-9) of Data Log
Span: Hours (Hrs) of Data Logging
Interval: Seconds (Sec) Between Logged Measurements
R: Return Psychrometer
S: Supply Psychrometer
DB: Dry Bulb from Psychrometer
WB: Wet Bulb from Psychrometer
DP: Dew Point from Psychrometer
%RH: Relative Humidity from Psychrometer
BTU/LBM: Enthalpy from Psychrometer (BTU per pound mass)
KJ/KG: Enthalpy from Psychrometer (kilojoules per kilogram)
T∆T: Target Dry Bulb Split from Psychrometers
∆T: Dry Bulb Split from Psychrometers
Lb: Pounds (from wireless scale)
Oz: Ounces (from wireless scale)
Kg: Kilograms (from wireless scale)
g: Grams (from wireless scale)
APO: Auto Power Off Enabled
: Top 10 Refrigerant Selected
: Speaker Turned Off
: Battery Life Remaining
: Wireless Signal Strength
Front View
Pipe Clamp Storage Arms
Metal shorting blocks are for Rapid Rail™ Thermocouple model JL3PC (sold
separately)
(LOW) | Suction Line Port Valve |
---|---|
(HIGH) | Liquid Line Port Valve |
(VAC) | Vacuum Port Valve |
(REF) | Refrigerant Port Valve |
Rear View
Thermocouple
- Bumpers
- Bumpers help secure thermocouple plugs.
- Pipe clamp thermocouples have indents on the plug that line up with the bumper when fully inserted.
Operation
Buttons
A beep sounds when a button is pressed. A double beep sounds when a button is
pressed and the function is not possible at that time. The speaker can be
muted altogether (page 22).
Press 2 sec to toggle power. Press to toggle backlight.
Scroll through refrigerants or change values.
ENTER: Confirm a changed value or activate an ALARM (page 18).
MENU: Enter the menu (page 22) or exit a mode.
VIEW: Display ODDB, TSH, or T1-T2 (page 15).
AIR: Display SLT/LLT or various return and supply air measurements from
optional psychrometers (page 15).
WIRELESS ON/OFF: Toggle wireless communication ON/OFF. Turn wireless OFF to
increase battery life.
ZERO WEIGHT: Press 2 sec to zero (tare) weight from a wireless scale (page
26).
TEST TIGHTNESS: Enter tightness test setup (page 20).
ZERO PRESSURE: Press 2 sec to zero the displayed pressures.
Recent Refrigerants ( )
A rolling list of your 10 most recent refrigerants, indicated by a , is stored
above the main list.
When you power off your manifold, the current refrigerant is added
automatically to this dynamic list of 10.
VIEW Select
Press VIEW to cycle through ODDB (outdoor dry bulb), TSH (target superheat),
and T1-T2 (middle display – bottom display).
ODDB: Live reading of the rear ODDB thermocouple jack. ODDB does not show if
set to manual value (page 27).
TSH: Live target superheat calculated from ODDB and IDWB. Each of these
measurements can be live or manually entered (page 17).
T1-T2: Live simple subtraction of the bottom display (T2) from the middle
display (T1). With SLT and LLT showing, you can check for a temperature drop
across a filter drier. With R and S showing, you can check the effect of the
indoor unit. With T∆T and ∆T showing, you can see how close the actual ∆T is
to the target.
AIR Select
Press AIR to display various calculations and measurements from Job L i nk
system psychrometers you’ve assigned (page 26). The parameter is briefly shown
when pressed, then shown at the top of the LCD.
Press AIR for >1 second to view SLT/LLT.
SLT: Live reading of suction line temperature.
LLT: Live reading of liquid line temperature.
R: Live reading from return air psychrometer.
S: Live reading from supply air psychrometer.
T∆T: Live target dry bulb split from psychrometers.
∆T: Live actual dry bulb split from psychrometers.
Superheat (SH) and Subcooling (SC)
Superheat is the amount of heat added to refrigerant after changing to a vapor
in the evaporator. Subcooling is the amount of heat removed from refrigerant
after changing to a liquid in the condenser. View both live at the same time!
- Use ARROWS to select the system refrigerant.
- Close all manifold valves.
- Connect EPA approved refrigerant hoses to LOW and HIGH side ports.
- Fully plug pipe clamp thermocouples into SLT and LLT rear jacks.
- Hand tighten both the LOW side hose to suction line service port and the HIGH side hose to the liquid line service port.
- Clamp the SLT thermocouple to the suction line between the evaporator and compressor, at least 6 inches from the compressor.
- Clamp the LLT thermocouple to the liquid line between the condenser and metering device, as close to the service port as possible.
- Purge hoses as you open HIGH and LOW manifold valves.
- View superheat and subcooling in real-time.
- Ensure system has stabilized before using superheat or subcooling to adjust the charge of the system.
- To add or remove refrigerant connect the tank/cylinder/machine to the REF port. Use the manifold valves to precisely charge or recover refrigerant as needed. Follow recommended charging or recovery practices from equipment manufacturer and training.
- When superheat and/or subcooling cannot be calculated, “- – – – ” will be displayed. If superheat and/or subcooling is negative, “Below Typical Range” will show. In rare cases this is normal, but usually a thermocouple is disconnected or the selected refrigerant is incorrect.
Target Superheat (TSH)
Compare target superheat (TSH) to actual superheat (SH) when charging fixed
orifice air conditioning systems. TSH is continually calculated from indoor
wet bulb (IDWB) and outdoor dry bulb (ODDB) temperatures.
IDWB: By default, this is a manually set value of 60.0°F.
For a live measurement, assign the optional model JL3RH wireless psychrometer
(page 26).
ODDB: By default, this is the live measurement of the ODDB thermocouple jack.
If you prefer a static measurement, assign a manual value (page 27).
- Connect the included type K bead thermocouple to the ODDB thermocouple jack. Use the alligator clip to locate the bead in a shaded area of the condenser to measure the temperature of air entering the condenser.
- Press VIEW until ODDB is displayed to verify the measurement. If you changed ODDB to a manually set value, it will be used to calculate TSH but will not be displayed.
- Measure IDWB after the filter, just in front of the indoor coil. If a psychrometer is assigned, you can press AIR until wet bulb is displayed to verify the measurement.
- Press VIEW until TSH is displayed.
Deep Vacuum
Follow recommended evacuation practices from equipment manufacturer and
training.
Alarms can be adjusted in the MENU (page 28).
-
Close all manifold valves.
-
Setup your tools and equipment (see diagram).
Connect HIGH port to liquid line service port.
Connect LOW port to suction line service port.
Connect VAC port to vacuum pump. -
Turn on your vacuum pump.
-
Open VAC valve.
The vacuum sensor is now exposed to your pump, but it will not display until HIGH/LOW manifold valves are opened. This ensures the measurement is of the system and not just the manifold. -
Open HIGH and LOW manifold valves.
-
Press ALARM to activate the low alarm.
The stopwatch starts. The rate of change is displayed in units per minute. The smaller the rate of change, the closer you are to stabilization. You may need to improve your setup if rate slows well before reaching your desired vacuum (see Tips for Better Evacuations). -
Once the the low alarm level is reached, the backlight blinks and alarm sounds. Press any button (other than ENTER) to silence alarm.
-
Close VAC valve to block the pump.
Do not close HIGH and LOW valves or you’ll block the system and measure just the manifold! -
Turn off your vacuum pump.
-
Press ALARM to activate the high alarm and start the stopwatch.
-
Once the high alarm level is reached, the backlight blinks, alarm sounds, and the stopwatch stops. Press any button (other than ENTER) to silence alarm.
-
Close HIGH and LOW manifold valves.
The vacuum sensor is now blocked from the system (page 39).
Tips for Better Evacauations
- Remove schrader cores and depressors with a core removal tool.
- Use shortest vacuum rated hoses with largest diameter available.
- Do not evacuate through hoses with low loss fittings.
- Inspect the rubber seals at both ends of your hoses for damage.
- Change pump oil before and during the job. Change pump oil on- the-fly without losing vacuum with Fieldpiece vacuum pumps.
- When the vacuum pump is blocked, a slow rise that stabilizes may signify moisture is still present in the system. A continuous rise to atmosphere indicates a leak. Check hoses, tools, or the system itself.
- Measurements are less representative of the entire system when the vacuum pump is on because pumping creates a pressure gradient. Block the pump and allow the system to stabilize before assuming the measurement is of the entire system.
Test Tightness (Pressure Test)
After working on a refrigerant-side component of an empt i ed system, it’s a
good i dea to pressurize the system with dry nitrogen and check for pressure
drops before evacuation.
-
Pressurize the system with dry nitrogen. Pressure levels vary with the equipment you’re testing. Always check with the manufacturer.
-
Connect the low side (suction line) port to the system and wait for the pressure to stabilize. You can connect the high side (liquid line) as well to help monitor stability, but the pressure differential (P.diF) calculation is only using the low side sensor.
-
Attach SLT clamp to the pipe you’re going to pressurize.
This temperature is used to compensate for any temperature changes between the start and end of the test.
To deactivate temperature compensation, unplug or unassign SLT before starting the test; SLT will not be shown or used. -
Press TEST TIGHTNESS to prepare test.
-
Press ENTER to start the test.
The stopwatch starts.
Real-time compensated pressure change is labeled P.diF.
Real-time temperature is labeled SLT.
Real-time temperature change is labeled ∆T. -
Press ENTER to stop the test.
The stopwatch, P.diF, and ∆T freeze.
If P.diF is negative, there may be a leak in the system.
If P.diF is positive, SLT or nitrogen temperature may be unstable.
High and low side pressures and SLT continue to display, but they are no longer being used. -
Press ENTER to exit the test.
- To save battery life, the screen will turn off after 3 hours of testing, but will continue to test. Press any button to turn the screen on.
Test for Noncondensables
If head pressure seems high even after cleaning coils, optimizing air flow,
and other routine maintenance, you may have noncondensables trapped in the
system. Noncondensables can reduce efficiency, performance, and put extra stress
on system components. Noncondensables can enter the system in many ways, and
your initial system service may be following years of poor service that
introduced the noncondensables.
- Use ARROWS to select the system refrigerant.
- Unpower the compressor, but allow the condenser fan to run.
- Connect high side port to the system to view system pressure.
- Clamp one thermocouple to the discharge line.
- Clamp the other thermocouple to the liquid line.
- Clip the ODDB thermocouple to measure the air entering the condenser.
- Monitor all three temperatures until they all stabilize and show the same value.
- View the subcooling (SC) calculation on the display.
The closer SC is to 0.0°, the fewer noncondensables are trapped.
Depending on the system, a negative SC may suggest a need to recover,
evacuate, and charge with virgin refrigerant.
Menu
Press MENU to enter the menu where most settings are located. Use arrows to
scroll through the menu and press ENTER to select one of the below menu items.
LogData: Enter data logging setup mode (page 23).
(StopLog): If data logging, stop the log (page 23).
AutoOff: Enter auto off timer setup mode (page 24).
CalTemp: Enter calibration mode for Type K jacks (page 25).
Wireless Sources: Enter wireless source setup mode (page 26).
TSH Sources: Enter target superheat source setup mode (page 27).
Units: Enter units setup mode (page 28).
Vac Alarms: Enter vacuum alarm setup mode (page 28).
Mute: If unmuted, mute the speaker.
(Unmute): If muted, unmute the speaker.
Backlight Timer: Enter backlight timer setup mode (page 29).
Adv Pressure Cal: Enter advanced calibration mode for pressure sensors (page
30).
F Ware: Enter firmware view and update mode (page 32).
Restore Settings: Enter restore factory settings mode (page 33).
(Delete Log File): If a log file is saved to the internal flash drive, enter
delete log file mode (page 34).
Format Drive: Enter format drive mode (page 34).
Data Logging
Log measurements and resulting calculations, such as Superheat, at chosen
spans and intervals.
Save up to 9 Jobs (logs) to the internal flash drive.
MENU/LogData
-
Use ARROWS to scroll through Jobs.
The display will alternate between the % free space on the drive and the % of space the chosen Job uses. -
Press ENTER to select.
If a Job already exists in that slot, use ARROWS then ENTER to choose whether or not you want to save over that Job. -
Use ARROWS to set the Span (total time).
It’s a good idea to use new batteries if setting up a long span. If batteries run out during a Job, the log will automatically stop and save, then the SMAN manifold will turn off. -
Press ENTER to select.
-
Use ARROWS to set the Interval (time between measurements).
-
Press ENTER to select and begin logging data until the Span ends.
LOG will blink to indicate the log is still active.
• Press MENU to exit setup at any time.
• Press MENU and select StopLog to stop the Job and return to standard operation. The Job will be saved.
• To save battery life, the screen will turn off after 3 hours of logging, but will continue to log. Press any button to turn the screen on.
• Some buttons and features (including auto power off ) are disabled until the Job ends.
• Jobs are saved as .csv files.
• Connect to your computer via the micro USB port under the removable rubber cover. View its internal flash drive just like any other USB drive.
Auto Power Off (APO)
To save battery life, your SMAN manifold automatically powers off after a set
time of no button presses.
MENU/AutoOff
- Use ARROWS to scroll through times (default is 30 min).
- Press ENTER to select and exit. If changes were made, choose whether or not you want to save changes.
• Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
• APO is automatically disabled when data logging.
Temperature Calibration
Thermocoup l es ( T/C) are not calibrated directly. Instead, each T/C jack
(ODDB, SLT, LLT ) must be calibrated to the particular T/C that is plugged
into it. Though it’s possible for a calibration to hold for years, it’s best
practice to calibrate regularly if only to verify accuracy.
Calibration is quick and easy, requiring just a known temperature to calibrate
to. Ice water is probably the most accurate and readily available known
temperature (32.0°F, 0.0°C) in the field.
MENU/CalTemp
- Stabilize a large cup of ice water by stirring. Pure, distilled water will be the most accurate.
- Immerse the sensing end of the thermocouple in the ice water.
- Use ARROWS to select the temperature you want to calibrate (SLT, LLT, or ODDB).
- Press ENTER to select.
- Use ARROWS to adjust the temperature to match 32.0°F (0.0°C) making sure the ice water is continually stirred. The calibration range is limited to ±7°F (±3.8°C) in order to help prevent mistakes.
- Press ENTER to save and return to the list of temperatures.
• Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
• If you have a wireless thermocouple (model JL3PC) assigned and wireless is on, calibration is for the wireless thermocouple.
• Calibration of a wireless thermocouple (model JL3PC) does not override a wired thermocouple calibration. You can switch between wired and wireless without having to recalibrate.
Wireless Measurement Sources
Assign wireless Job Link system tools to core manifold measurements such as
pipe temperature or to broader measurements such as refrigerant weights and
psychrometrics.
Wireless OFF: Line temperatures (SLT and LLT) are automatically assigned to
their type K jacks.
Wireless ON: SLT and LLT type K jacks DO NOT override an assigned wireless
source.
MENU/Wireless Sources
-
Use ARROWS to scroll through the list of measurements.
-
Press ENTER to select.
-
Turn on any wireless sources you want to assign.
If your Job Link system tool has a selector switch, ensure it’s set to match the measurement. -
Use ARROWS to scroll through detected measurement sources.
Job Link system tools are displayed by their 4 digit ID, usually found on the back of the tool. -
Press ENTER to select and return to the list of measurements.
- Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
- Most Job Link system tools have a switch that selects a side of the system. Set it to match the measurement you’re assigning it to.
- Select Clear to set a source to its factory default source. This is useful when you want to use a previously assigned tool at the job site, but do not want to use it with the SMAN manifold.
- A wireless Return psychrometer is assigned to both Return air and IDWB (page 17) when selected.
Target Superheat (TSH) Sources
Target superheat is calculated from outdoor dry bulb (ODDB) entering the
condenser coil and indoor wet bulb (IDWB) entering the evaporator coil. Assign
a wireless psychrometer to return air and plug in a thermocouple to ODDB for
real-time comparison of target vs actual superheat.
MENU/TSH Sources
-
Use ARROWS to toggle between IDWB and ODDB.
-
Press ENTER to select.
-
Use ARROWS to scroll through detected measurement sources.
Job Link system tools are displayed by their 4 digit ID, usually found on the back of the tool. ODDB cannot be set to wireless. -
Turn on any wireless sources you want to assign.
If your Job Link system tool has a selector switch, ensure it’s set to match the measurement. -
Press ENTER to select and exit or go to next.
- Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
- Most Job Link system tools have a switch that selects a side of the system. Set it to match the measurement you’re assigning it to.
- Select Clear to set a source to its factory default source. This is useful when you want to use a previously assigned tool at the job site, but do not want to use it with the SMAN manifold.
- A wireless Return psychrometer is assigned to both Return air (page 15) and IDWB when selected.
- Turning wireless on/off does not change the assigned source.
- If ODDB is set to a manually set value, the thermocouple jack is deactivated even if a thermocouple is plugged in.
Units
Each measurement can have its own unit of measure.
MENU/Units
- Use ARROWS to scroll through the list of measurements.
- Press ENTER to select.
- Use ARROWS to scroll through units of measure.
- Press ENTER to select and return to the list of measurements.
• Press MENU to exit at any time. If a change was made before pressing ENTER, choose whether or not you want to save the change.
Vacuum Alarms
Set high and low vacuum alarms so you know when you’ve reached an appropriate
vacuum (Low) and time how long it takes to rise after blocking the pump from
the system (High).
MENU/Vac Alarms
- Use ARROWS to toggle between high and low alarm.
- Press ENTER to select.
- Use ARROWS to adjust the alarm trigger.
- Press ENTER to select and exit or go to next.
- Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
- The low alarm cannot go higher than the high alarm.
- The high alarm cannot go lower than the low alarm.
- Press ENTER (ALARM) while in deep vacuum to activate the next alarm (None >> Low >> High >> None).
Backlight Timer
The backlight turns off automatically after a set time of no button presses.
MENU/Backlight Timer
- Use ARROWS to scroll through times (default is 2 min).
- Press ENTER to select and exit. If changes were made, choosewhether or not you want to save changes.
• Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
Advanced Pressure Calibration
Typical HVACR service does not require this procedure, but you can
occassionally calibrate the pressure sensors to maintain highest accuracy.
It works by measuring the temperature of virgin refrigerant and applying an
offset to match the pressure to that refrigerant’s P-T chart.
-
Calibrate a beaded thermocouple to the ODDB jack (page 25).
-
Store a virgin refrigerant cylinder, upright and untouched, in the stable ambient environment for at least 24 hours.
-
Leaving the cylinder in the same place it was left to stabilize, connect the cylinder to either the HIGH or LOW side port.
-
Close VAC and REF valves and cap the unused port.
If you don’t have caps with seals, you can connect both ends of a refrigerant hose to the unused ports or hose seats. Some refrigerant will remain in the hoses which you need to recover after calibration. -
Use ARROWS to select the refrigerant type in the cylinder.
-
Use tape to attach the ODDB thermocouple bead halfway up the cylinder to measure the temperature of the refrigerant.
-
Press VIEW if ODDB is not shown.
-
Open both HIGH and LOW side manifold valves.
-
Open the refrigerant cylinder valve.
The pressure inside cylinder should now be displayed on both HIGH and LOW side pressure sensors. -
Allow the pressure readings and ODDB temperature to stabilize.
-
Press MENU.
-
Use ARROWS to show Adv Pressure Cal.
-
Press ENTER to initiate calibration of the pressure sensors.
-
Each pressure sensor will briefly display “Good” if successful or “Err” if unsuccessful, then return to normal operating mode.
Troubleshooting an “Err” message
-
Measured pressure was less than 10 psig.
• Refrigerant cylinder may be nearly empty.
• Valves may be closed. -
Measured pressure was not within ±3psig of VSAT pressure on the P-T chart.
• Thermocouple may not have been calibrated properly.
• Thermocouple may not have been attached properly to cylinder.
• Thermocouple may have not been connected to ODDB jack.
• Refrigerant cylinder pressure was unstable.
• Refrigerant cylinder temperature was unstable.
• Refrigerant selected did not match refrigerant in cylinder.
Firmware View and Update
Firmware often becomes available as new refrigerants and features become
available.
Before entering this mode, download from www.fieldpiece.com and transfer from
the computer to the manifold via the micro USB port on the side.
Or you can initiate an update over the air from your mobile device running the
Job Link system mobile app while the version is displayed.
MENU/F Ware
- View the firmware version on the top line, P/T chart on the second line, and radio region on the bottom line.
- If a new firmware file is found on the internal flash drive the new versions will be shown. Choose whether or not you want to update.
- Once installation begins you will see a bar moving across the screen. “donE” will appear and your SMAN manifold will turn off when finished.
• Press MENU to exit at any time before installation begins.
• During installation, buttons are disabled.
• User settings are not deleted.
• Log files are not deleted.
Restore User Settings
Restore factory default user settings when you want a fresh start.
MENU/Restore Settings
- Use ARROWS to select Yes or No.
- Press ENTER to select and exit.
• Press MENU to exit at any time. If changes were made, choose whether or not you want to save changes.
• If you choose to restore, it may take a few seconds before returning to standard operation.
Delete Log File
Clear up space by deleting old logs or just view free space available.
MENU/Delete Log File
- Use ARROWS to scroll through Jobs (logs). The display will alternate between the % free space on the drive and the % of space the chosen Job uses.
- Press ENTER to select a Job to delete. Choose whether or not you want to delete that Job.
- If you choose to delete, it may take a few seconds to finish. If no more Jobs are found, the manifold returns to standard operation.
• Press MENU to exit at any time.
Format Internal Flash Drive
Quickly clear up maximum space by reformatting the internal flash drive. This
deletes everything on the drive including log files, firmware update files, and
any other files added manually.
MENU/Format Drive
- Use ARROWS to select Yes or No.
- Press ENTER to select and exit.
• Press MENU to exit at any time.
• If you choose to format, it may take a few seconds before returning to standard operation.
• User settings are not deleted.
Maintenance
Cleaning
Wipe with damp cloth to clean the exterior.
Do not use solvents.
Battery Replacement
The batteries must be replaced when the battery life indicator is empty. Once
the batter i es are drained beyond operating voltage, “Low Bat” briefly appears
and the manifold turns off.
Unscrew the 4 cover screws and pull out the rear battery cover. Replace the 6
AA batteries and properly dispose of the old ones.
Using Different Refrigerants
You can use different refrigerants, but be sure to purge your manifold with
nitrogen before connecting to a system with a different refrigerant.
Contamination can hurt system performance and cause damage.
Temperature Calibration
See page 25.
Advanced Pressure Calibration
See page 30.
Specifications
Display: LCD (5 inches diagonal)
Backlight: Blue (adjustable duration)
Low Battery Indication: is displayed when the battery voltage drops below the
operating level.
Over Range Display: OL for pressure, – – – – for temperature Auto Power Off: 30
minutes of inactivity (adjustable)
Maximum Manifold Pressure: 800 Psig (5500 kPa)
Battery Type: 6 x AA alkaline
Battery Life: 350 hours typical (without vacuum, backlight, and wireless)
Radio Frequency: 2.4 GHz
Wireless Range: 350 feet (106 meters) line of sight.
Distance decreases through obstructions.
Data Port: Micro USB (for extracting data logs or updating firmware)
Operating Environment: 32°F to 122°F (0°C to 50°C) at <75% RH
Storage Environment: -4°F to 140°F (-20°C to 60°C) at <80% RH (with battery
removed)
Temperature Coefficient: 0.1 x (specified accuracy) per °C (0°C to 18°C, 28°C to
50°C), per 1.8°F (32°F to 64°F, 82°F to 122°F)
Weight: 4.03 lbs (1.83 kg)
Water Resistant: Designed to IP54
US Patent:
www.fieldpiece.com/patents
Refrigerants: New refrigerants are continually being added so be
sure to visitwww.fieldpiece.com for the latest firmware.
R11 | R115 | R290 | R407A | R414B | R422B | R448A | R500 | R600A |
---|---|---|---|---|---|---|---|---|
R12 | R116 | R401A | R407C | R416A | R422C | R449A | R501 | R601 |
R13 | R123 | R401B | R407F | R417A | R422D | R450A | R502 | R601A |
R22 | R124 | R402A | R408A | R417C | R424A | R452A | R503 | R744* |
R23 | R125 | R402B | R409A | R420A | R427A | R452B | R507A | R1233ZD |
R32 | R134A | R403B | R410A | R421A | R428A | R453A | R508B | R1234YF |
R113 | R236FA | R404A | R413A | R421B | R434A | R454B | R513A | R1234ZE |
R114 | R245FA | R406A | R414A | R422A | R438A | R458A | R600 |
*Maximum pressure: 580 Psig (4000 kPa)
Temperature
Sensor Type: Type K thermocouple (nickel chromium/nickel aluminum)
Jack Type: (3) Type K thermocouple
Range: -50°F to 257°F (-46°C to 125°C), limited by the thermocouple
specification. Display range is -95°F to 999.9°F (-70°C to 537.0°C).
Resolution: 0.1°F (0.1°C)
Accuracy: Shown accuracies are after field calibration.
±(1.0°F) -95°F to 200°F, ±(2.0°F) 200°F to 999.9°F;
±(0.5°C) -70°C to 93°C, ±(1.0°C) 93°C to 537.0°C
Pressure
Sensor Type: Absolute pressure sensors
Port Type: (1) 3/8” and (3) 1/4” standard NPT male flare fittings
Pressure Range and Units: 580 Psig (English), 40.00 Bar (Metric), 4.000
MPa (Metric), and 4000 kPa (Metric)
Negative Pressure Range and Units: 29 inHg (English), 74 cmHg (Metric)
Resolution: 0.1 Psig; 0.01 Bar; 0.001 MPa; 1 kPa; 0.1 inHg; 1 cmHg
Negative Pressure Accuracy:
29 inHg to 0 inHg: ±0.2 inHg;
74 cmHg to 0 cmHg: ±1 cmHg
Pressure Accuracy:
0 Psig to 200 Psig: ±1 Psig;
200 Psig to 580 Psig: ±(0.3% of reading + 1 Psig);
0 Bar to 13.78 Bar ±0.07 Bar;
13.78 Bar to 40.00 Bar: ±(0.3% of reading + 0.07 Bar);
0 MPa to 1.378 MPa: ±0.007 MPa;
1.378 MPa to 4.000 MPa: ±(0.3% of reading + 0.007 MPa);
0 kPa to 1378 kPa: ±7 kPa;
1378 kPa to 4000 kPa: ±(0.3% of reading + 7 kPa)
Deep Vacuum
Sensor Type: Thermistor
Port Type : (1) 3/8” and (3) 1/4” standard NPT male flare fittings
Range and Units:
50 to 9999 microns of mercury (English),
6 to 1330 Pascals (Metric),
0.06 to 13.3 mBar (Metric),
50 to 9999 mTorr (Metric),
0.05 to 10 Torr (Metric, equivalent to mmHg)
Best Resolution :
1 micron of mercury (below 2000 microns),
1 Pascal (below 250 Pascals),
0.001 mBar (below 2.5 mBar),
1 mTorr (below 2000 mTorr),
0.001 Torr (below 2.5 Torr)
Accuracy @ 77°F (25°C):
±(5% of reading + 5 microns of mercury), 50 to 1000 microns
±(5% of reading + 1 Pascal), 7 to 133 Pascal
±(5% of reading + 0.01 mBar), 0.067 to 1.33 mBar
±(5% of reading + 5 mTorr), 50 to 1000 mTorr
±(5% of reading + 0.005 Torr), 0.067 to 1 Torr
Wireless Compatibility
Latest compatibility at www.fieldpiece.com
Job Link System Minimum Device Requirement:
BLE 4.0 devices running iOS 7.1 or Android™ Kitkat 4.4
Wireless Measurement Source Assignments:
Suction line temperature: Fieldpiece model JL3PC (set to blue)
Liquid line temperature: Fieldpiece model JL3PC (set to red)
Supply air psychrometer: Fieldpiece model JL3RH (set to blue)
Return air psychrometer: Fieldpiece model JL3RH (set to red)
Refrigerant weight scale: Fieldpiece models SRS3, SRS3P
Manifold Diagram
Compliance
****EN 300 328 | Regulatory Compliance Mark |
---|---|
****2ALHR005 | ****Waste Electrical and Electronic Equipment |
IC: Industry Canada
22518-BT005| Restriction of Hazardous Substances Compliant
FCC Statement
This equipment has been tested and found to comply with the limits for a Class
B digital device, pursuant to Part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses and
can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not
occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
- Reorient the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
FCC Caution:
Any changes or modifications not expressly approved by the party responsible
for compliance could void the user’s authority to operate this equipment.
This device complies with Part 15 of the FCC Rules. Operation is subject to
the following two conditions: (1) This device may not cause harmful
interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
This device and its antenna(s) must not be co-located or operating in
conjunction with any other antenna or transmitter.
IMPORTANT NOTE: FCC Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an
uncontrolled environment. This equipment should be installed and operated with
minimum distance 20cm between the radiator & your body.
IC Statement
This device contains licence-exempt transmitter(s)/receiver(s) that comply
with Innovation, Science and Economic Development Canada’s licence-exempt
RSS(s). Operation is subject to the following two conditions:’
- This device may not cause interference.
- This device must accept any interference, including interference that may cause undesired operation of the device.
IMPORTANT NOTE: IC Radiation Exposure Statement:
This equipment complies with IC RSS-102 radiation exposure limits set forth
for an uncontrolled environment. This equipment should be installed and
operated with minimum distance 20cm between the radiator & your body.
Limited Warranty
This product is warranted against defects in material or workmanship for one year from date of purchase from an authorized Fieldpiece dealer.
Fieldpiece will replace or repair the defective unit, at its option, subject to verification of the defect.
Thi s warranty does not apply to defects resulting from abuse, neglect , accident , unauthorized repair, alteration, or unreasonable use of the machine.
Any implied warranties arising from the sale of a Fieldpiece product, including but not limited to implied warranties of merchantability and fitness for a particular purpose, are limited to the above.
Fieldpiece shall not be liable for loss of use of the machine or other incidental or consequential damages, expenses, or economic loss, or for any claim of such damage, expenses, or economic loss.
State laws vary. The above limitations or exclusions may not apply to you.
Obtaining Service
Visit www.fieldpiece.com/rma for the latest
information on how to obtain service.
Warranty for products purchased outside of the U.S. shouldbe handled through
local distributors.
Visit our website to find your local distributor.
SM480V
© Fieldpiece Instruments, Inc 2019; v17
Documents / Resources
|
Fieldpiece SM480VINT 4 Valve Digital Manifold with Built in Data
Logging
[pdf] Instruction Manual
SM480VINT 4 Valve Digital Manifold with Built in Data Logging, SM480VINT, 4
Valve Digital Manifold with Built in Data Logging, Manifold with Built in Data
Logging, Built in Data Logging, Data Logging
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References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>