What are the replacement parts for my EV² gauges?

EV2 ACCESSORIES


EV² / PERFORMAX GAUGE MOUNTING BRACKET KIT R19999
EV² PRESSURE SENSOR WIRE HARNESS R72014
EV² RAIL PRESSURE SENSOR WIRE HARNESS (FORD 6.4L NOT APPLICABLE) R72015
EV² HPOP SENSOR WIRE HARNESS (FORD ONLY) – R72016
EV² TEMPERATURE SENSOR WIRE HARNESS – R72017
EV² PYROMETER WIRE HARNESS – R72018
EV² VOLTMETER WIRE HARNESS – R72019
EV² FUEL LEVEL WIRE HARNESS – R72020
EV² REAR AXLE TEMPERATURE SENSOR WIRE HARNESS 20′ – R72021
EV² LIGHTING WIRE HARNESS WITH POTENTIOMETER – R72022
WIRE INSERTION TOOL – R72023
EV² GAUGE END WIRE HARNESS, (PRE WIRED WITH CONNECTOR & BUTT SPLICES) – R72027
EV² POWER, GROUND, LIGHTING WIRE HARNESS – R72028
EV² SPEEDOMETER AND TACHOMETER WIRE HARNESS – R72029
EV² RAIL PRESSURE SENSOR WIRE HARNESS (DODGE/CUMMINS 2013+) – R72030
BOOST GAUGE MANIFOLD BOLT DODGE 5.9L and 6.7L – R7741
COUPLER, 1/8F – 1/8F – R7854
ADAPTER, 1/8F – 7/16M – R7855
FUSE KIT – R78823
HOSE, BRAIDED SS (3FT) 1/8″ ID – 1/4″ OD M-FM 1/8″ NPT – R78824-3
HOSE, BRAIDED SS (6FT) 1/8″ ID – 1/4″ OD M-FM 1/8″ NPT – R78824-6
HOSE, BRAIDED SS (8FT) 1/8″ ID – 1/4″ OD M-FM 1/8″ NPT – R78824-8
HOSE, 18″ GREASE GUN – R78825
EV² / PERFORMAX SNUBBER KIT, CUMMINS 1989-2002 – R78826
EV² / PERFORMAX SNUBBER KIT, FORD POWERSTROKE 1994.5-1997 -R78827
EV² / PERFORMAX SNUBBER KIT, FORD POWERSTROKE 1999-2003 R78828
EV² / PERFORMAX SNUBBER KIT, FORD POWERSTROKE 2003.5-2007 R78829
EV² ADAPTER FITTING 1/4 TO 1/8 – R78844
EV² / PERFORMAX EXHAUST BACK PRESSURE INSTALLATION KIT 27″ 3/16″ TUBE – R78855
EV² ADAPTER FITTING 3/8 TO 1/8 – R78877
EV² ADAPTER FITTING 1/2 TO 1/8 – R78888
EV² / PERFORMAX OIL PAN ADAPTER FITTING 1/2″ X 20 UNF W/WASHER – R78899
ATTRIBUTE PROGRAMMING TOOL – R82003
CLIPSENSE ™ TEMPERATURE SENSOR MOUNT – R82004
EV² OUTPUT DRIVER MODULE – R82006
ATTRIBUTE PROGRAMMING TOOL – SEALED GAUGES – R82009
EV² DUST CAP AND CONNECTOR KIT – R82013
EV² / PERFORMAX PRESSURE SENDER 400 PSI – R89140
EV² / PERFORMAX PRESSURE SENDER 100 PSI – R89141
EV² / PERFORMAX PRESSURE SENDER 175 PSI – R89142
EV² / PERFORMAX PRESSURE SENDER 100 PSI (PREMIUM) – R89145***

R89145 fuel pressure sensor has been superseded by part number R89148
EV² / PERFORMAX PRESSURE SENDER 2000 PSI – R89146
EV² / PERFORMAX PRESSURE SENDER 14.7 INHG TO 60 PSI – R89147
EV² / PERFORMAX TEMPERATURE SENDER 0-320 – R89966

**R89145 fuel pressure sensor has been superseded by part number R89148**

Frequently Asked Questions about EV² gauges

EV² FAQ

Q – My gauge pointer stays at the same spot when I turn off the gauge, is this normal?

Q – My gauge does not make a full sweep clockwise before going counterclockwise when I power it up (like the factory gauges in my truck/car do), is this normal?

A – Yes, all electronic EV2 gauges operate as follows: At power-down the pointer remains at the last indicated position (with power removed the pointer cannot move). At power-up the pointer sweeps counterclockwise until it hits the pointer stop (just below “0”) then immediately moves to the level that the gauge is reading at that moment.

Q – My gauge pointer keeps sweeping down to the straight down (6:00) position, why is this happening?

A – The gauge does this to indicate that it is seeing an intermittent out-of-range condition on the sensor circuit. Please go to the appropriate gauge-type section in this document and run the specified tests:
https://isspro.com/TROUBLESHOOTING%20DOC/ISSPRO_EV2_Troubleshooting.pdf


Q – My gauge is not working at all, what is the most likely cause?

A – Check the wiring connection at the orange connector at the back of the gauge, per the troubleshooting guide listed above. The wires are likely not making good contact with the connector terminals. See the referenced document for instructions on pressing the wires in using the tool which is included with each gauge (or contact ISSPRO Customer Service if you need a replacement insertion tool).

Q – My gauges are slightly brighter or dimmer than my factory gauges. Can I adjust the backlighting?

A – You can use the Attribute Programmer R82003 to adjust the dimmer curve, setting the voltage values for minimum and maximum brightness.

Q – Do I need mounting hardware for the gauge?

A – If the gauge is mounted in a 2.040″ hole (typical aftermarket gauge pod) then it is designed for a tight snap fit without mounting hardware. For larger holes a mounting bracket kit R19999 is available.

Q – Do I need anything extra when installing an electronic fuel pressure gauge?

A – All fuel pressure applications except Common Rail systems need at least a snubber valve, and some require an adapter fitting, with specific application requirements listed here: https://isspro.com/installation/IS169.pdf

Q – Where do I install the sensor?
Q – Can I view the installation instructions online?

A – Installation instructions are listed by part number on our website by clicking the IS form number listed in the product detail.

How to choose your mechanical EV² gauges

Turn the factory dimmer knob all the way down until the dash lights have just turned off, or are at the lowest light setting. Next use a digital multimeter to measure the voltage on a dimmer circuit, then select the closest dimmer value in the available gauge: 1.7V, 3.8V or 8.0V.
i.e. R11113-1.7VDC, R11113-3.8VDC, or R11113-8VDC

*Checking the voltage is necessary in order to ensure that the gauge backlighting works correctly with your factory dash dimmer switch*
———————————————————————————–
MODEL YEAR MECHANICAL EV² VOLTAGE NEEDED “FACTORY MATCH EV² STYLE
* = not available in Mechanical EV²”
DODGE
RAM 89-93 8V R12000
RAM 94-97 (EARLY 2ND GEN) 8V R12000
RAM 98-02 (2ND GEN) 8V R17000
RAM 08-09 (3RD GEN EXCEPT ’09 1500) 3.8V R14000/R19000
RAM 09-13 (RAM 1500) 1.7V R30000*
RAM 10-13 (2500&3500 (EARLY 4TH GEN) 1.7V R30000*
RAM 10-13 LARAMIE LONGHORN 1.7V R38000*
RAM 14 & NEWER (LATE 4TH GEN) 1.7V R42000*
RAM 14 & NEWER LARAMIE LONGHORN 1.7V R39000*

FORD
F150 92-96 (OBS) 8V R16000
F250-550 92-97 8V R16000
F250-550 99-07 (SUPER DUTY) 8V OR 1.7V R17000
F250-550 11 & NEWER 1.7V R34000*
F250-550 11 & NEWER 1.7V R35000*
F250-550 11 & NEWER 1.7V R36000*

CHEVY/GM
CHEVY/GM 01-’06 3.8V R12000
CHEVY/GM 07-’13 (W/ LTZ TRIM PKG 3.8V R18000*
CHEVY/GM 07-’13 (W/O LTZ TRIM PKG 3.8V R18000*

NISSAN TITAN XD ’16 & NEWER N/A R42000*

VW
JETTA 99.5-03 1.7V R32000*
JETTA 04 & NEWER 1.7V CONTACT FACTORY
 

Everything you need to know when choosing a tachometer and sensor for your Dodge

Dodge/Cummins

1989-1991

These were the early “1st Gen” years in the Dodge pickups, with a rotary style VE injection pump and the first of the “12-Valve” 5.9L engines. They did not have intercoolers and most apparently did not have factory tachometers or crankshaft position sensors. Their fuel was supplied with an engine-mounted mechanical “lift pump” at low pressures (3-7 psi typically). The VE injection pump is completely mechanical, with no electronic parts or tuning. These engines generally need a full snubber kit for the fuel pressure gauge’s sensor.

1991.5-1993

These years (late “1st Gen”) continued with the rotary VE pump but added an intercooler and a crankshaft position sensor which is used for the charging system voltage regulator but also feeds a harness for the optional tachometer, which is typically taped to the steering column under the dash. These engines generally need a full snubber kit for the fuel pressure gauge’s sensor.

1994-1998

These are the “Early 2nd Gen” years, with a new truck body style and a change to a piston-type P7100 injection pump (commonly known as a “P-Pump”) which increased power. They continued to use a block-mounted mechanical lift pump but at higher pressures (15-20 psi typically, but some aftermarket kits pushed that to 50+ psi).  A common retrofit to 1st Gen trucks is to convert to P-Pump fuel systems. The P7100 injection pump is completely mechanical, with no electronic parts. These engines generally need a full snubber kit for the fuel pressure gauge’s sensor.

1998.5-2002

The “Late 2nd Gen” years brought a new version of the 5.9L Cummins: the 24-valve head (4 valves per cylinder) and the VP44 electronic injection pump. The VP44 is capable of drawing fuel from the tank without a lift pump, BUT it requires the constant flow of fuel (provided by a lift pump) to keep it cool.  In other words, if the lift pump fails (identifiable by a drop in fuel pressure) the VP44 will overheat and fail (very expensive replacement).  Due to these failures, this vintage is the most critical application of fuel pressure gauges (as well as a market for buying gauges). These engines generally need a full snubber kit for the fuel pressure gauge’s sensor.

2003-2007

These are the “Common Rail” years of the 5.9L Cummins. They used a Bosch CP3 pump to raise fuel to extremely high pressures (up to 26,000 psi) as commanded by the engine controller. These years use the Rxx288 Rail Pressure gauge. Generally the CR engines do NOT have fuel pressure pulsations like on the earlier engines, and at most they need a simple R7800 snubber (but most do not need anything).

2007.5-2012

These are the 6.7L Cummins engines, which uses a higher pressure (29000 psi) CP3 pump, and uses the Rxx289 Rail Pressure gauge.

2013+

These use a different connector for the Rail Pressure sensor, requiring the Rxx289C gauges.

The difference between gauges lines – Standard EV vs. EV² and Performax

EV vs. EV²
There are a number of advantages to the EV² versus the EV series gauges. They are similar in appearance (available in the same general styles), but EV series uses curved lenses.

The EV series uses a separate “amplifier box” near the gauge head, so you need to find a mounting spot for it. The amplifier box for a Pyrometer measures about 2.3″ x 2.3″ x 1.6″, and for a temperature gauge it measures about 2.75″ x 2.4″ x 0.88″. The EV series is an air core gauge movement, basically a set of electric windings, with electronics in the amplifier box to drive them. They also use conventional incandescent bulbs for lighting, although we offer LED replacement bulbs in a variety of colors. They do have the benefit of allowing you to change the backlighting colors. The EV series does include mechanical boost and other pressure gauges. These are typically lower cost than electronic gauges, but require running tubing into the cab. In the case of a fuel pressure gauge, it requires the use of an isolator to keep fuel out of the cab.

The EV² Series is completely “standalone”, no amplifier box needed. They utilize stepper motor movements for precision, and LED backlighting for brightness and durability. Both of these technologies allow the gauge to operate at a very low current draw (less than 0.1 Amp with lights at full brightness). Also, the backlighting is powered by the main ignition input, without drawing any measurable current from the dimmer circuit of the vehicle, so there is no worry about overloading the factory dimmer.

The EV² gauges also include an integral programmable warning light, which may be activated and adjusted using Programmer P/N R82003 and a PC. The Programmer may also be used to adjust the backlighting curve to perfectly match the factory dash lights, and can also adjust the amount of signal filtering/smoothing that the software performs.

If price is a significant factor, you may want to consider using a mechanical EV boost gauge with EV² series for the remaining gauges. Since the mechanical boost gauge does not require an isolator (as with mechanical fuel pressure), you could install it at a lower price than the comparable EV² electronic gauge. The EV² would still be simpler to install, but at a higher price. The EV gauge would be very similar in appearance except for the curved lens. Mechanical EV2 pressure gauges will be introduced in 2013, at a lower price than the electronic pressure gauges.

See also Temperature Compensation below.


EV² vs. Performax™
The Performax and EV² series share many attributes: Stepper motor movements, LED backlighting, solid-state sensors and programmable warning lights. The EV² individual gauges cost more than the Performax counterparts, since the gauge must contain the processing power, while the Performax processing power is mostly in the ESP controller. The Performax series uses an underhood controller (the ESP) which connects to all the sensors (so you don’t have to run all those sensor wires through your firewall). There are 3 common wires which run to all of your gauges (up to 17 total), simplifying your wiring and allowing you to move gauges around to any location. The Performax system also includes the Total Recall™ feature, which provides the ability to view the extreme values of all functions connected to the Performax system. For most functions, the stored value is the maximum value, but on fuel system pressures (Fuel, HPOP, and Rail Pressure), the lowest value while under load is recorded (requires the use of Performax boost gauge sensor). This allows you to focus on driving down the dragstrip or pulling track, keeping it in the groove instead of trying to see if your fuel pressure is dipping at the end.

The ISSPRO Performax PC Datalogger is an optional interface module and software package which allows your Windows-based PC to record all of the data being read from the sensors connected to the Performax ESP controller.

The module connects to the gauge wiring in place of one gauge (or you can wire in an additional gauge connector in a convenient spot for the module), then connects via the included cord to the USB port of your PC.

The software displays actual values for all sensors connected to the ESP while it is logging (there is a start/stop button on the screen). When logging, the software writes to a comma-separated-value (CSV) file to be opened up in Microsoft Excel (or a similar program). The data is logged for each channel at 5 samples per second. You can use your spreadsheet (e.g., MS Excel) features to analyze and graph the results.

The data is logged for all sensors connected to the Performax ESP, regardless of whether a corresponding gauge is installed. You can have all 17 channels connected to sensors for datalogging, even if you only have room for 3 gauges in your truck.

Also available is the Performax USB Datalogger, which records the data directly onto a USB drive, eliminating the need for the PC in the vehicle.

If you are not interested in the Total Recall or PC Datalogger features, then EV² is the likely choice when installing 3 or fewer gauges. For more gauges, the Performax system is more cost effective, especially when installation time is taken into account.

Pyrometer temperature compensation
One significant benefit of ISSPRO Performax™ and EV² gauge systems is the temperature compensated pyrometer, unique in automotive pyrometers.

Conventional pyrometers just measure the difference in temperature between the probe tip and the leadwire end (typically at the gauge head). The industry standard is to calibrate on the assumption that the gauge head is at 70° F. In an enclosed cab on a hot day with a dark colored interior, a gauge can reach well over 170° F and will be very slow to cool off (the pods act as a good insulator). This will result in your pyro displaying a temperature over 100° F cooler than the actual temperature, in conditions where you are likely to see high temperatures. Because of this inherent inaccuracy, ISSPRO Performax and EV² pyrometers utilize temperature compensation circuits and show the actual probe tip temperature.

Pre-turbo or Post-turbo thermocouple installation?

Clearly the manifold (pre-turbo) installation is better in almost all circumstances. Many people from the “old days” worry about thermocouple tips breaking off and chewing up the turbo. This fear is a relic from the days of exposed-junction thermocouples (the type still used in laboratories). For 40+ years the automotive standard has been to encase the thermocouple junction in a welded sheath of high-temperature stainless steel. More recently they have also been made out of Inconel stainless, which is rated for continuous use at 2000° F. Here at ISSPRO we have not had a single report of a sheathed-design thermocouple breaking and damaging a turbo, with over 40 years of history.

Measuring pre-turbo tells you more about the temperatures your pistons are seeing, as well as the worst case temperature of your turbo. The temperature difference between pre- and post-turbo can vary anywhere from +500° F (pre-turbo much higher when under heavy load and temps rising quickly) to -100° F (post-turbo hotter immediately after starting downhill after a hard pull uphill).

The only time we see post-turbo measurements as preferable is when monitoring the turbo temperature during shutdown. As the turbo cools off, it is being cooled by the exhaust gases at no-load (which are now cooler than the turbo). These gases get heated up as they cool off the turbo, so you actually see a warmer temp post-turbo. However, the difference between pre- and post-turbo temperatures is minimal by the time the turbo has cooled to around 300° F (which is where most people shut down). In other words, post turbo lets you see the cooldown progress better, but it is nearly identical to the pre-turbo reading by the time you reach the shutdown temperature. To shut down automatically, many customers install an ISSPRO R4130 Turbo Temp monitor.