Fuel Injector

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A fuel injector is a device used to inject a specified amount of fuel into the intake of an engine as air enters a cylinder, creating the air/fuel mixture.
Fuel injectors vary widely by a car's make and model. This article primarily concerns itself with those found, of course, in the Z32.
Related articles: Fuel Injector Testing; Fuel Injector Replacement

Versions & Differences

The Z32 uses high-impedence, side-feed fuel injectors. New fuel injectors ohm test at approximately 11.4 ohms. Operating range is between 10 and 14 ohms.
The table below illustrates the different types of fuel injectors available for the Z32.

  Phase I (Old Style) Phase II (New Style) Additional Notes
270CC (Stock NA)

270cc_Fuel_Injector_(1990-92_NA_93_CV).jpg

270cc_Fuel_Injector_(1993-96_NA)_New_Style.jpg

New style are also found on the
Infiniti J30.
370CC (Stock TT)

370cc_Fuel_Injector_(1990-94_TT).jpg

3574l.jpg
Purple injectors tend to
turn grey & brown over the
years. Old style 370ccs should have 1M51 stamped on the top. OEM
replacements usually have a
dark blue dot on the
connector and are
slightly ligher in
color compared to
NISMO 555s. New style is also
found on some years of the
Infiniti Q45.
555CC

Nismo_555cc_Single_Fuel_Injector_(90-94_TT).jpg
NISMO 555cc Injector

 

Has 0011 stamped into the top.

NISMO did not
introduce a P2 555CC
injector, but instead
introduced P2 615CC
and 740CC models.

615CC  

Nismo_555cc(615cc)_Fuel_Injector_(1).jpg
NISMO 615CC Injector

See above. Some people
refer to these as 555s,
but that is not correct,
and they are not
interchangeable with
555s. These actually flow 600cc
and have a lower latency value
than many other injectors..
740CC  

Nismo_740cc_Fuel_Injector_(1).jpg
NISMO 740CC Injector

 
JECs Injectors
(available in
various sizes).

3866l.jpg
JECs P1 Injector.

Varies JECS injectors beyond 270cc or
370cc are redrilled injectors. The
old-style connectors are visually
similar to P2 Nissan connectors,
but the alignment slots are different,
so they require Denso/SARD/PE
style connectors. Old-style
JECS injectors, despite the new
connector, are still old-style
injectors.
Deatschwerks  
3504l.jpg
Deatschwerks Injector
Deatschwerks injectors were originally
redrilled remanned cores, and often
resembled OEM injectors for this reason.
Newer Deatschwerks injectors start
with a new core (American Standard),
but are still redrilled. They are either
bright red or bright purple.

Note: Deatschwerks injectors are also available (in 270CC, 370CC, 550CC, and 740CC flow rates). As they are redrills of stock injectors, they all look like either P2 270CC or 370CC injectors. Early Deatschwerks injectors have been seen as redrills of used NA or TT injectors and therefore can be found as either purple or red, and were redrilled used injectors. Newer Deatschwerks injectors are redrilled new OEM or like-OEM 370CC (TT) injectors, if higher flow-rates than 370CC.
Thanks to CZP and Z1 for the above pictures.

Other Z32 Injectors

The above table illustrates only injectors that will fit in a VG30 with no [major] modifications. There are a few other options, such as:

Sard 850CC Injectors (Requires different fuel rail or adapters).

850cc_Fuel_Injector.jpg

DrivenAuthority/WINFactory
Top-Feed Fuel Rail Kit
(Uses EV14 Injectors, available in various sizes from 545CC to 1200CC).

WINFactory_300ZX_Z32_Top-Feed_Fuel_Rail_Kit.jpg

BDE Top-Feed Fuel Rail Kit
Also uses ID Injectors. There are two versions currently on the market.
The older style requires machining of the lower plenum, but maintains
stock fuel injector depth. This style requires 60mm long injectors with
14mm O-rings; Purple ID adapters. These part numbers will be formatted
as:
xxxx.60.14.14 (Where xxxx is the flow rate in cc/min)

The later style uses bolt-in lower plenum adapters. This version uses
48mm injectors with 14mm O-rings, which are the same style the
WinFactory rails use.The ID725 and 1000 will not require any adapter,
while the 850, 1300, and 2000 will use the gray ID adapter.

These part numbers will be formatted as:
xxxx.48.14.14 (Where xxxx is the flow rate in cc/min).

4546l.jpg

Phase "1.5" Injectors. Some generations of JECS redrills used
an in-between style with a new-style body and JECS/Sard/Denso/PE
style connector, but the body was still based on the old-style injectors, so
the fuel screen was around the coil rather than below it. This made it
susceptible to ethanol damage, so they were still as unreliable as the
early style injectors.

3979l.jpg

 

Phases 1 and 2

Phase I fuel injectors were prone to corrosion on their electrical connectors as well as internally--ethanol in today's fuels quickly erodes the connections to the solenoid coil and causes premature failure (this can be verified by ohm-testing a fuel injector).
Mid-cycle, Nissan switched to a superior "Phase II" later style of fuel injectors, which has a revised design featuring sealing electrical connectors and a "pintless" design less susceptible to failure caused by ethanol content in fuel. See the table below for info about when specific years/models made the switch.

Year Non-Turbo Convertible Twin Turbo
1990 Phase 1 Phase 1 Phase 1
1991 Phase 1 Phase 1 Phase 1
1992 Phase 1 Phase 1 Phase 1
1993 Phase 2 Phase 1 Phase 1
1994 Phase 2 Phase 2 Phase 1
1995 Phase 2 Phase 2 Phase 2
1996 Phase 2 Phase 2 Phase 2

Nismo 615s and 740s

Nismo 740cc injectors are considered the "gold standard" for the 300ZX. They are the only direct-fit injector that is manufactured at 740cc, all others are redrilled at the time of this writing, which means the Nismo 740 is more reliable and consistent. These offer the following advantages:

  • Manufactured at 740cc (not redrilled)
  • New-style reliability & connector
  • Ethanol compatible (new style)
  • High power ceiling (over 700whp)
  • 4-port metering plate (better atomization)
  • Like-stock idle behavior.

It's worth mentioning that Nismo does not actually manufacture injectors, the cores are by JECS and the injector itself is manufactured by HKS or Tomei. It is often cheaper to buy them directly from a manufacturer like Tomei, despite it being the exact same part.
Nismo 615s are also a popular option. They are virtually identical to 740s, but use a yellow top (instead of red found on the 740s) and flow less fuel. For the price, 740s are a better choice as they often cost less than 615s, move more fuel, and idle just as well.

Flow-Testing

I had a set of Nismo 740s and a set of Nismo 615s independently flow-tested. The Nismo 740s were a brand new set, and we had them flow tested by three different companies to compare their results.

Nismo 740 (Tested at 3 bar)
  AUS RC Eng. JWT
1 752 741 735
2 749 740 740
3 752 739 737
4 749 742 732
5 739 740 732
6 739 740 730
High 752 742 740
Low 739 739 730
Average 746.67 740.33 734.33
Latency   Untested 0.84ms

As I found their testing to be the most consistent and reliable, I only had RC test the Nismo 615s out of curiosity.

Nismo 615
1   602  
2   599  
3   600  
4   601  
5   600  
6   599  
High   602  
Low   599  
Average   600.17  
Latency   Untested  

Retrofitting

As you can see from the above pictures, P1 and P2 injectors use physically different dimensions (and electrical connectors). This means that one cannot simply drop P2 injectors in a P1 fuel rail. Further, a P2 fuel rail will not fit a P1 lower intake manifold, and a P2 lower intake manifold will not fit P2 heads. The (proper) possible ways to install P2 injectors into a P1 engine are:

  • Using an adapter kit, which uses special bushings that allow P2 injectors to seat into P1 fuel rails.
  • Using a 300Degree Fuel Rail, for which there is a version that accepts P2 injectors and seats into a P1 lower intake manifold.
  • Replacing fuel rails, lower intake, and heads with P2 (new-style) counterparts.
Electrical connectors can be cut/spliced to install the P2 versions. Another popular option is to replace the wiring harness (which is relatively common practice anyways) with that for a P2 model year. For example, installing a '95 harness in a '90 which has P2 injectors retrofitted in. However, this is costly and also requires swapping a few other components (or their connectors).
35n82g2.jpg

When using an adapter kit, it is almost always necessary to grind a small amount of material away on the "bridge" over cylinder 1's injector. This is because the adapters raise the injector slightly in its seat, and without doing so, there isn't room for the electrical connector.

Appearances & Identification

Z32 injectors tend to change colors over the years. This is similar to how Super Nintendo consoles all turn yellow over the years. They're not dirty, it's just a chemical reaction with the plastic.
NA injectors darken slightly, whereas TT injectors will darken, turn green, and eventually turn a greyish brown. Scuffing up the plastic a bit will usually reveal a little bit of purple plastic underneath.
used_z1_injectors.jpg

 

370cc vs 555cc

Confusion between identifying used old-style 370s and used 555s is common, because they're both purple. When brand new, the 370cc injector is a slightly lighter tint of purple, but they darken quite quickly after installing and, without seeing them side-by-side, are almost identical visually to 555s.
A good rule of thumb, however, is to remember that replacement 370cc injectors have a blue dot on the top, where the connector clips on (you'll need to remove the connector to see). If you have a purple injector that has no dot, it's probably a 555. If there is a dot, it's a 370. If there's no dot, but it's not purple (it's brown/green), it's probably an original 370.

270cc vs 740cc

270cc and 740cc injectors are, from the top, visually identical. However, 740cc injectors have a black ring on the bottom, while 270s have a red ring. This ring is not visible with the injector in the rail. It's also quite uncommon to install high-flow injectors in NAs, and NA injectors in TTs. Not to say it's never happened, but it's very rare (and not a great idea to begin with).

Keep in mind, too, that upgraded injectors require an upgraded ECU to function correctly. If in doubt, you can have the injector(s) flow-tested.