L5000 and L5000 XL

1. L5000 and L5000 XL Installation, Troubleshooting, and Maintenance

2. Objectives of this presentation • This presentation is intended for both experienced field personnel familiar with laundry and OPL installations, as well as new field service personnel who have only a rudimentary knowledge of accessing triggers from solenoids and washer terminal blocks. • The objective is to train the installer to be able to install L5000 E and L5000 XL on most washers, and troubleshoot any unusual conditions they may encounter. To train new installers, we recommend using this presentation in conjunction with an actual installation or at least a lab installation followed by a site visit of a typical hotel account with various sizes of washers. • Excluded from the scope of this presentation are tunnel applications and a detailed treatise on laundry chemistry • Excluded from this presentation is detailed training on electrical safety, which should always be performed prior to attempting any high voltage installations. In brief, however, power to the dispenser should be shut off at the source prior to opening the pumpbox, and the power should never be turned on with the pumpbox open. In the case of internal trigger modules, the washer power should also be shut off at the source since high voltage signals from the washer can be present in the pumpbox.

3. Pumps covered by this presentation • L5000 E: Newer version of L5000. Programmer detachable, two line formula names, enhanced formula & setup copy, handles both small and medium 100 & 600 series pumps, enhanced latched mode, PC software compatible, power on light on front. • L5000 XL: The extra large version of L5000 E, which functions with medium 600 series &/or large 2000 series (69 oz/min, 2000 ml/min) pumps • Not covered by this presentation: • Original L5000 OPL dispenser (several minor programming differences) • L5000 XL tunnel software • L5000 Data Upgrade: This upgrade consists of a PCB which attaches onto the XL & E PCB’s with standoffs.

4. This presentation is comprised of the following sections • Physical installation: mounting, tubing, flush plumbing • Electrical installation: power, trigger/signal wiring • Programming • System alarms and troubleshooting

5. Pump box placement • Install the pumpbox(s) on the wall wherever you’re storing the chemicals • The pumpbox should be closer to the chemicals than the washer, since using the pumps to pull the chemical a long distance will drastically reduce tube life and induce trouble calls • For all but the smallest and largest installations, you’ll typically put the chemical drums in an aisle behind the washers, and hang the pumpbox above the chemicals • Use a flush manifold if pumping over 20’ (7 meters) to the washer Don’t install pumpbox far from chemicals Install pumpbox near chemicals, not washer

6. Hanging pumpbox on wall • Open pumpbox and put a level in the bottom. If mounting an XL, unscrew ground wires and remove pump plates so the unit will be light and easy to handle • Hold unit level to wall at chest height and mark both keyhole type holes and small round holes in back of dispenser on wall • Put dispenser down and drill out holes • Put screws in hole slots, with wall anchors in the case of sheet rock • Hang dispenser on keyhole slot screws • Add screws to the other hole(s), to ensure pumpbox can’t be dislodged from wall • If mounting an XL, hang pump plates as shown and reattach ground wires.

7. Mounting the OPL flush manifold • Attach brackets to the bottom of the pumpbox or wall • Newer manifolds have integral solenoid as part of manifold assembly; older manifolds have pumpbox mount solenoid as shown on the right • Route wires through finger bushing near solenoid and attach to PCB and solenoid • Snap manifold into the brackets, with check valves under the manifold • Newer manifolds have more robust flow switches and translucent parts so you can instantly check for clogs or starch build up

8. Mounting the XL flush manifold • Attach plastic manifold clips to metal mounting brackets. • Screw plastic mounting brackets into the wall. • Open right panel of dispenser enclosure (panel can be hung on bottom lip of dispenser enclosure). • Remove hole plug and install finger bushing, either through the largest hole on the bottom of the dispenser (recommended) or through the hole on the left side of the dispenser enclosure. Route manifold wire harness through this hole. Plug wire harness into “Manifold” connector on main PCB. • Connect water supply to manifold in accordance with local plumbing codes.

9. Mounting the tunnel flush manifold • Mount the manifold with the screws provided • Use 3/8” tubing from the pumps to the manifold, as with other manifolds • Run ½” ID tubing from the outlet barbs to the washer modules • The manifold comes configured to flush to up to 4 injection points; it will flush to them simultaneously Use 1204847 manifold expansion kit if you need to flush to a fifth manifold

10. Tubing: Pump Chemical Pickup Connection • For L5000 E pumps we recommend 10 mm ID or 3/8” ID tubing. The 600 series pump can use a smaller ID transport tube on these systems vs. XL since the XL uses a larger ID tube (o.375” i/o 0.25”) and has a higher flowrate • For XL pumps use 1/2” ID (12 mm) tubing for typical chemical viscosities. If one of your products such as a built surfactant is particularly viscous, use 3/4” ID tubing • Regardless of the pump size we recommend stiff tubing such as nylobraid when pumping viscous chemicals. • Using smaller tubing than the recommended size will reduce tube life and may cause trouble calls. You should increase the tube ID on both the suction and discharge sides when pumping viscous chemicals over 15 feet/5 meters 3/8”B to 1/2”B fitting # 1202525 3/8”B to 3/4”B fitting # 1202526

11. Tubing: OPL 3/8” ID drum pickup lance connection • For an OPL 100 or 600 series pump with 3/8” ID transport tubing, use snap in standpipes as shown on the left. Leave about 0.25” (6mm) of room at the bottom so the tube can’t seal itself against the bottom of the drum • Cinch a tie wrap over each standpipe where the tube goes in to be sure it won’t pop out when switching drums • If using two standpipes per tube, also add tie wraps over each standpipe where they come together • Use T fittings to branch off to separate washers • For installations requiring a low level alarm lance, you can either use a separate low level lance, or a low level suction lance such as 1201071 which clamps onto the side of the drum 1/2” ID 18” long PVC snap in standpipe 1202756 T fitting, 3x3/8”B #092273

12. Tubing: XL 1/2” and 3/4” ID drum pickup lance connection • For a single washer, put a hose clamp on the tube, slide it over the barb, and tighten. • For two washers, remove the barb fitting and use a T fitting with a MPT the same size as the lance. Secure hoses with hose clamps. • For three+ washers, run a single suction line, with a three barb T fitting below each dispenser. Secure hoses with hose clamps. 1/2” ID, 1/2” B, 34” long with footvalve#1202522 3/4” ID, 3/4” B, 34” long with footvalve#1202523 T fitting, 1/2”MPT, 2x1/2”B, polypropylene #1202520 T fitting, 3/4”MPT, 2x3/4”B, polypropylene #1202527 T fitting, 3x1/2”B #092275 T fitting, 3x3/4”B #035516

13. Tubing Connection: From pump to washer • For 100 & 600 series pumps on E use 10 mm or 3/8” ID tubing from the pumps to the washer. For particularly viscous products you can use 1/2” (12mm) ID tubing to increase your tube life • For XL 600 & 2000 series pumps use 1/2” ID tubing, or 3/4” ID tubing for viscous products

14. Tubing Connection: From pump to flush manifold • Because of the short distance from the pumps to the manifolds, 3/8” tubing can be used with any pump size • Whenever the chemical supply is over 20’ (7 meters) from the washer, it’s best to use a flush manifold to increase maximize tube life, especially if viscous chemicals are involved • When pumping a particularly viscous starch known to produce check valve failures, rather than put it in through a check valve, inject it into the flush line with a T fitting 3’ downstream from the flush manifold 3/8”B to 3/8”B fitting # 1202524

15. Flush manifold water supply • Unless your water pressure is 20 PSI dynamic when flowing, install a pressure regulator to limit it to 20 PSI. • It’s best to use one pressure regulator per flush manifold, rather than one and then a T fitting to go to multiple manifolds. If the latter is done and all the flushes turn on at once, it’s possible the flow will be insufficient, and a no flow alarm and cancelled feeds will result • Attach water supply to solenoid inlet barb with a hose clamp, using a 3/8” ID water supply line for an OPL manifold, or a 1/2” ID line for an XL manifold • Use an RPZ if required by local plumbing codes The pressure requirement ensures the 600 series spring loaded roller pumps will be able to pump into the chemical stream, since at pressures over 20 PSI the pump will operate but no chemical will be injected into the water stream. The pressure limitation is also designed for safety, so the system has low pressures and there’s no danger of chemical spray. Note: Newer L5000 manifolds with integral solenoid have a flow washer, so a pressure regulator usually isn’t required up to about 40 PSI.

16. Tubing: Sour Flush Installation • To prevent dangerous chemical interactions such as between acid and bleach, one of the incompatible chemicals such as sour or bleach must be routed separately. Traditionally the chemical to route separately is the acid sour. • Rather than route sour all the way to the washer where chemical drip could cause corrosion in the feed hopper, it’s best to put the sour into the flushed line with a T fitting about 3’ or one meter downstream from the flush manifold These parts are all in Sour Flush Kit #069505. Note that if you are using a non-synthetic cornstarch based starch, you may be able to reduce the possibility of clogs by routing bleach separately, and running sour into the upstream port on the manifold.

17. Wiring: Main power • Attach a constant source of 100-240 VAC 50/60 Hz power to the right and left white terminal block connectors. Typically you can jump power from a power plug or junction box somewhere on the laundry wall, or from the main washer power inside the washer if installing right next to the washer • Crimp a 10-12 GA (4mm2) ground wire to one of the ring terminals on the bottom of the pump box • Run power wire through a strain relief such as 090369 or conduit connection on bottom of unit Keep the power to the unit and power switch off until the pumpbox is closed and you’re ready to verify system operation

18. Wiring: Choose operating mode • How you connect wires to the pumping system depends on what type of washer you’re using • On old washers with multiple solenoid signals, you’ll select formula mode and jump wires off the solenoid to the pumping system trigger module, so the system will know to start pumping based on when the solenoid comes on • On very old washers where no absolutely no electric signals are available, you’ll run in triggerless sequence mode • On old washers with a drain signal, you’ll select sequence mode • On newer washers which provide signals, you’ll run in smart relay mode • On tunnel washers you’ll either use smart relay mode, or use a batch transfer signal and formula classification triggers in TAFS mode (tunnel automatic formula selection mode)

19. Wiring: Signal (trigger) connection • The trigger circuit board serves as the high-voltage interface between the washer trigger signals and the dispenser. It also serves as the wiring connection point between the programmer and the pump box. • Pumpboxes either come with an internal TR6000 trigger board, or have an external trigger module purchased separately. • TR6000 has six independent + & - connections, while TR8000 has 8 trigger inputs with one common. • With an internal trigger board going from the bottom up, connect trigger wire #1 to trigger #1“+”, trigger wire #2 to trigger #2“+” etc. External trigger modules are mounted in the washer as shown above. This limits the number of high voltage lines and conduit going to the pumpbox Trigger wire connection

20. Wiring: Optional low level alarm input/output • Connect the low-level sensor input to LEVEL IN on the pump box circuit board. If there are too many inputs to fit, combine all wires of the same color with wire nuts, and have another wire go from each wire nut to the input. Any contact closure across the input will cause the dispenser to display a LOW CHEM alarm and activate the 24 VDC alarm output. • The 24 VDC alarm output can be connected to a sonic alarm such as 1200452 shown with orange wire nut extensions mounted in the bottom of the pumpbox on the right Advanced users may route the alarm output to a washer hold input on the washer or relay performing washer hold, or use the alarm signal to trigger a bulk tank refill. This is only used on special installations.

21. Wiring: Optional temperature probe • Connect the dispenser temperature probe to the TR6000 or TR8000 washer interface module. • Clean surface, and put heart-shaped adhesive insulating pad over probe, placing flat surface of probe against tank wall. • Tape over the insulating pad to ensure it is adequately insulated and will not fall off.

22. Wiring: Programmer connection • Attach the programmer to the washer at about chest level, using the velcro strips provided. It can also be mounted by adding the mounting feet with the screws, and then screwing the feet into the washer. • Choose a surface not prone to excessive vibration, direct water spray, or excessive steam. • Using the cable provided, connect the programmer to the trigger board. • Note: • Newer L5000 E & XL systems will not function with the white programmer. They use only the grey programmer. • E & XL don’t need the programmer attached to function; they only need it for alarm display and formula selection

23. Programming: Key functions

24. Programming • The programmer is used for: • Formula selection by laundry workers • Data viewing and priming by account laundry technicians • Programming by the installer The “technician” password is available for access to prime and view data, without allowing them to change data or any programmed info. This maintains security while allowing your customer to service the unit so you don’t get a trouble call just to prime the lines. On XL & E, the dispenser operates without the grey programmer for relay mode, but needs it attached for typical formula mode applications. If running using only one formula, the programmer isn’t necessary after installation.

25. Laundry worker screen • Laundry workers use this screen to choose formula names, by pressing + or - to change the formula selected. • When you power up the unit, it’ll display software version numbers for a second or two, and then show this screen. Normally this is the only screen the laundry workers will need. • Only three screens are visible without a password: this screen, the diagnostic screen, and the enter password screen • Press the cursor key to see diagnostic info screen • Or hold down the menu key for five seconds to enter a password and begin programming

26. Diagnostic InformationRelay, latched, and formula modes • This screen is viewable without a password, by pressing the cursor key, and shows which triggers are active or being qualified. • Allows the user to view whether pumps are stopped, running, or on hold per a programmed delay time or while another pump pumps into the flush manifold. • Verify the system is accepting washer triggers, while watching solenoids turn on/off and comparing them to the trigger status on the screen. • If the triggers aren’t showing up, try changing the voltage setting to accept low voltage triggers. If they come on too often, you may need to change the trigger filter time from 2 to 15 seconds, or run in latched or sequence mode. (See trigger qualification screen)

27. Diagnostic information Sequence mode • In sequence mode, the bottom line of the diagnostic info screen shows info germane to sequence mode. • Sequence mode matches pump actions with steps in the wash process, so the bottom line shows whether the drain signal is on and which sequence step you’re in (which corresponds to how many times the drain signal’s come on) • The bottom line also shows what action is programmed for that step: an I for ignore signal & wait for next signal to do the next step, an E for end of the pumping sequence for that wash load, or a pump icon when pumping or during a delay

28. Password Screen • To access any screen other than the formula select and diagnostic screens, you need to enter a password • Hold down the menu button for five seconds to bring up this screen • Enter the default password 890 using the + & - buttons to change the number shown, and the cursor button to switch from character to character • Once the screen reads 890, press the menu button to proceed. The menu button will be used to take you from screen to screen, starting with the prime screen. You can press it repeatedly to loop around through the screens, or hold it down for five seconds to exit back to the laundry worker screen. • If you enter an incorrect password, you will return to the laundry worker screen. Menu button Cursor button

29. Prime pumps Press the action button to prime Change the pump number with + or - Press the menu button to continue to the next screen

30. Formula & Alarm Count Screen • Shows the latest formula count values, and how many formulas have had alarms. • Use the + and - buttons to change the formula number and view data for other formulas • Note that if a formula has more than one alarm condition, only one alarm is counted since all the alarms occurred during a single instance of that formula running.

31. Trigger Status & Counter • The top line shows which triggers are on, 1=on, 0=off, with T1 on the left and T8 at right. • The bottom line shows the trigger counts for each trigger. Once a trigger’s count has reached 9, it remains there until a new wash load begins. • In the example at left, T2 is on and has occurred once. • Use this screen to count drain signals for sequence mode programming, or count all triggers to be sure they don’t occur more than once per formula in other modes. The advantage of this screen vs. the trigger and pump status diagnostic screen is that this shows you a history for the last formula run, for troubleshooting after the load’s run. • The first trigger after the end pump’s trigger clears the count and it starts from 0, or it can be cleared manually in programmer level access by pressing the action key for two seconds. For a trigger to be counted, it must meet the Trigger Qualification screen’s criteria for duration and voltage.

32. Pump Run Time Data • This screen automatically updates to show total run time in minutes for the selected pump. The pump run time data may be reset to zero by pressing and holding the ACTION key for 2 seconds.

33. Temperature Probe Reading • This screen only appears if at least one formula is set to use hygiene verification. The screen shows current water temperature in real time, including the offset value. • The temperature is displayed as 000-099º C (if units are set to “ml”) or 032-210º F (if units are set to “oz”). • If no temperature probe is connected, “---” is displayed as the temperature.

34. Setting mode & units of measure • The following screen allows you to select the units of measure (metric or imperial) and trigger mode (Smart Relay, Formula, Latched or Sequence). • When the unit of measure is changed to ml, all other menus update to show values in ml • Press the CURSOR key to move to the bottom line and select trigger mode. • Press and hold the “+” or “–” key for 2 seconds to scroll between “Formula”, “Latched”, “Relay” and “Sequence”.

35. Speed Control • Speed control increases tube life and dosing accuracy with thick chemicals. • Speed control should be used with thicker chemicals which have 1/2 or less the flowrate of the other chemicals. • Reduce the pump speed to 50% speed if the thick chemical’s pump calibrate at 1/2 the flowrate or less than thin chemical pumps • Recalibrate any pump for which you change the pump speed, to be sure the pumpbox calculates pump runtime based on an accurate calibration value You only need to change pump size when swapping out one pump size for another, or adding a pump onto a system.

36. Calibration #1 • L5000 pumps chemical based on volumetric calibration. • The calibration amount you pump is larger for bigger pumps: • 100 series pump=1 oz • 600 series pump=4 oz • The flowrate from the most recent calibration is displayed on the bottom right. • In the example on the left, pump 1 (P1) pumps 67.6 ounces (2 liters) per minute, calibrated from a pump volume of 10 ounces. Volumetric programming means once pumps are calibrated no formula adjustment is required for differing flow rates when changing chemicals or compensating for tube wear. This reduces installation errors and saves installation time by allowing the installer to program volumes they want pumped without having to calculate and program runtime based on flowrate.

37. Calibration #2 • To calibrate, position the end of the selected pump’s discharge tube over measuring cylinder. Use the default calibration amount of 30 oz (900 ml) for 2000 Series pumps. Press “+” to change it to 4 oz (100 ml) if using 600 Series pumps, or 1 oz (30 ml) if using the 100 series pump. • Hold down the action key to run the pump until the calibration amount shown on the screen has been pumped. • The new flowrate will be automatically calculated, displayed in place of the 67.6 oz or 2000 ml default setting, and saved to memory. • If the pump’s only run a short time so the calibration value isn’t yet deemed valid, “----” will be displayed. Press the ACTION key again to resume calibration; each time you press the action key, the flowrate will increment. • If you pump too much and need to start over, change the pump number to another pump and back; that will allow you to to run the pumps and recalculate the calibration amount from the beginning. Try to get to the calibration amount within 2-3 presses of the ACTION key, because tapping the ACTION key repeatedly to pump the whole calibration amount will make the calibration inaccurate. If installing without a flush manifold, calibrate at the washer to be sure transport tubing effect on flowrate is factored in.

38. Programming formula names • Program the top line of the formula name, Line 1, and then highlight the Line 1 with the cursor key and press + to change it to Line 2, so you can enter the bottom line of the formula name. • Use the cursor to switch from character to character, and the +/- to change each character to the formula name desired. Press + & - simultaneously to change a character to “M”. As with other L5000 screens, you don’t ever need to press a “save” button; all info is automatically saved. To avoid having to program formula names for each washer, we recommend programming them and the formulas for one washer, and downloading the info to other washers.

39. Mode programming • The programming screen for the mode selected in the Setting Mode & Units of Measure screen will appear next. • For training purposes we’ll look at the screen which will appear for each mode, but when actually using a unit only the screen for the mode selected will show up. • In supplemental screens, also, there are some differences between the modes, and we’ll show all versions of a screen here while in programming only the relevant version will show up.

40. Formula mode #1 • This screen shows all the Formula Mode programming parameters. These parameters show that in Formula 1 we want trigger 1 (T1), to tell pump 1 (P1) to pump 10 ml of formula 1 (F1) after a 10-second delay. • The “+” to the right of the “a” indicates we have programmed T1 to initiate additional pump actions (“b” and/or “c”). • To program, press the cursor key to highlight the pump volume, and the + key to select the volume you want pump one to pump in formula one when trigger one is received. • Use the cursor key to highlight the trigger number press + to change from T1 to T2, and then put in what pump and volume you want to run for T2. • Repeat for all triggers, then change the formula # to F2 & repeat.

41. Latched mode • Latched Mode is the same as Formula Mode, except: • Triggers are ignored or “latched out” after they have occurred once. • Whenever the “End pump” signal is received the latch is reset so triggers will be accepted again • Latched mode has an “add prewash feeds to main wash” optional feature you can turn on and use • Latched mode programs the same as formula mode, but you need to assign an “End” pump on the End Pump Assignment screen so the dispenser knows when the formula has completed and can “unlatch” the trigger.

42. Smart relay mode #1 • In Smart Relay Mode, the L5000 pumps chemical based on the trigger signal’s on-time. L5000 pumps a programmed amount of chemical for each second the trigger is on. • Chemical dose=trigger seconds x call rate • So, for a 6-ounce dose, using the default call rate of 2.0 ounces, program a 3-second trigger from the washer. For a 20 ounce dose, use the same 2.0 ounce call rate and a 10-second trigger. • Smart relay mode reduces installation time vs. normal relay mode which just runs the pump while the trigger’s on, by allowing the installer to program in target volumes, rather than check flowrates for each pump and then calculate the trigger times they need per pump per formula. Never use a washer trigger time of one second or less!

43. Sequence mode programming • Sequence Mode performs pump actions in an order, based on either drain signals from the washer, or delays programmed during installation. • Count the number of drains to determine when to dose chemical. For example, if for “ bright colors” (or some other load class), we find that the washer drains twice before pre-wash, we would program step 1 and step 2 as “I” (Ignore). To do this, we’d press the cursor key to highlight the “E”, and press + to change it to I, then change S1 to S2, and also change that to I. • Step 1 is performed when the sequence is started, typically by pressing the ACTION button. Step 2 would be performed when the first drain signal is received after the pre-wash. “End” is the default value for each sequence step, and is changed to I (ignore) or a pump action after watching the drain signals and wash process

44. Sequence mode programming #2 • For step 3, which would be the main wash, we’d highlight the E and change it to a pump icon, as shown on the right. The programming of the bottom line is as in formula and latched mode, with the delay time, pump number, and pump volume. • If there were 2 rinses after main wash, before final rinse, we would set steps 4 and 5 to “I” (Ignore), and step 6 to a pump action to add softener. • We would then set step 7 after the last pump action to “E” (End), which logs the load as completed in the Formula Count screen. • Sequence mode configuration options: • T3=sequence autostart trigger (instead of manually starting with the action button) • Setting T2 to “-” in the Trigger Qualification screen instructs the system to run the sequence without waiting for any T1 signals

45. End pump • The “End Pump” determines which pump action will log the formula as complete in Formula, Latched, and Smart Relay Modes. • Set the last pump that will run for each formula to be the end pump, usually the softener. • You can specify a different end pump for each formula. • The end pump unsets the latch in latched mode • Never set as the end pump a pump which will not be triggered, since that’ll prevent formula counts from taking place and in the case of latched mode will leave the latch on indefinitely, causing a trouble call. • If you set the end pump as a pump which runs twice per formula, the formula count will be twice the actual number of times run. Because the end of the formula is programmed in sequence mode, this screen doesn’t appear when sequence mode’s selected.

46. Formula copy • Formula copy reduces your programming time, by allowing you to copy formulas and then quickly fine tune them, instead of entering all the formula info for each formula. • Input a common formula similar to many others on a formula programming screen. • Select the common formula you wish to copy FROM on the top line. • Press the CURSOR key to advance to the bottom line and scroll to the desired formula number to copy TO. • Press and hold the ACTION key for 2 seconds to copy the formula shown on the top line to the formula shown on the bottom line. • Scroll to formula “All” to copy over all formulas

47. Change passwords • Change passwords using the “+” and “–” keys and the CURSOR key to move across the screen. • Technician password gives the operator access to only Technician-Level screens of data viewing and priming, so they can prime and report diagnostic info but not alter the programming. • The Programmer password allows access to all screens. Entering a “000” password for either level means that no password is required for that level of access.

48. Trigger Qualification • The bottom line has minimum trigger voltage and duration requirements, to prevent erroneous triggering from low voltage and/or short duration electrical noise. • If your triggers are sometimes not being recognized, you may need to change the voltage setting to “L”. • The filter time (f/t) is the amount of time you want the trigger to be active before the dispenser acts upon it. If you are getting too many triggers, you may need to try using a 15 second trigger time, so the dispenser will only act on a trigger after it’s been on for 15 seconds. The example shows that trigger 1 (T1) is “rising” (+). A rising trigger edge indicates that the trigger activates when voltage turns on, where a “falling”(–) trigger edge indicates that the trigger activates when voltage disappears. Usually “-” is only used in sequence mode.

49. Trigger qualification #2 • The filter time setting is not applicable to Smart Relay Mode triggering. The voltage selection, however, is applicable to all triggering modes to prevent erroneous triggering by electrical noise.

50. Clone program • Cloning copies your formulas and formula names from one programmer to another. This both prevents duplicate programming, and allows you to quickly pre-program all your dispensers before going to an account to install the units. • “Receive” uploads the program from the dispenser. The arrow will flash during the data transfer, and stop flashing once when complete. • “Send” downloads the program to other dispenser(s). The arrow will flash during the data transfer, and stop flashing once when complete. • Be sure to calibrate systems after cloning the program, especially if cloning between systems with different pump sizes Upload/download time will depend on the amount of data/program complexity If “error” is displayed on the bottom line, check the cable connections, ensure no cables are draped over high voltage power sources, and try again