Zeitronix wideband lambda
sensor
Simple hook-up guide that
will work on virtually all Honda’s
There is a wide variety of wideband lambda sensors on
the market. Of all these sensors I am very happy with the Zeitronix wideband
lambda sensor and its controller. I run 2 of these sensors on a daily bases in
my cars. Other sensors I’ve never mounted, so this guide is aimed solely on the
ZT2. But probably reading this guide while mounting another brand of sensor
will help you in the right direction.
The heart of the system is the ZT2 wideband AFR
controller. All cables and apparatus are connected to this controller as
described in the Zeitronix manual. I will only focus on connecting the signal
harness with the rest of the car. This Zeitronix harness plugs into the
controller on one side and has 12 wires that should be connected to the cars electronics.
The following table is the table as given by Zeitronix for their ZT2 Model 2009 or earlier, appended with
Honda circuit codes. The 2010 model is not that different, but I have no
experience with the new function on pin 8.
|
PIN # |
WIRE COLOR |
FUNCTION |
HONDA CIRCUIT |
CONNECT BY |
|
1 |
RED |
Switched power (ex. ignition) |
IGP2 |
split from IGP2 |
|
2 |
WHITE |
Wideband Analog Output |
None or ELD |
not or ELD to
log with eCtune |
|
3 |
GREEN |
RPM Input. 0-12V square wave, tach
signal or primary (low voltage) side of ignition coil. |
ICM |
split from ICM |
|
4 |
|
Zeitronix Boost (MAP) Sensor Input |
none |
not |
|
5 |
WHITE/BLUE |
Warning Output (not available on oldest models) |
none |
not |
|
6 |
YELLOW |
Zeitronix Boost Sensor +5V Power. Connect
ONLY to Zeitronix Boost Sensor RED. |
none |
Not |
|
7 |
BLACK |
Power Ground |
PG2 |
split from PG2 |
|
8 |
BROWN |
Only 2009 and earlier: Sensor Ground ( |
SG2 |
split for SG2 |
|
9 |
PURPLE |
Simulated Narrowband O2 Output (for
your stock ECU) / Linear Wideband Output |
none or PO2S* |
See note below* |
|
10 |
GREY |
Throttle Position Sensor |
TPS |
split from TPS |
|
11 |
BROWN |
Sensor Ground (Boost Sensor ground
reference) |
none |
not |
|
12 |
BLUE |
User Input 0-5V |
MAP |
split from MAP |
*Note on narrowband simulated signal. Here we have two
options. Either measure and datalog with the wideband sensor, while keeping the
original lambda sensor in its place and function. Or replace the original
lambda sensor entirely. In the first case we do nothing with ZT2 pin 9 and
leave it unconnected. In the second case the ZT2 pin 9 wire should be connected
to the PO2S wire of the ECU. Except this time we do not split the PO2S wire
like all the others, but we cut the P02S wire. The PO2S wire running to the ECU
is connected with pin 9. The PO2S wire running into the engine bay should be
isolated or removed. That part is useless now.
Note on the RPM, TPS and MAP signals. As far as I know
these signals are features of the ZT2 so you can nicely datalog these very
valuable sensors while driving. But these signals are not required by the ZT2
system to operate normally. The MAP sensor is not even recognized as a MAP
sensor, it is just a 5V signal to the ZT2 which has no calibration. So, you
will read 2.90V instead of 100 MPa for instance. But connecting and using these
signals on the ZT2 unit is very easy and useful to do.
For explanations and locations of the Honda circuits I
refer to my pinout schemes which can be found in the menu bar.
Please, send any questions and/or remarks to me.
Dodo Bizar
Disclaimer: the
builder of this website can not be held responsible for any damage done as a
result of information on this site. Use the information on this site at your
own risk!!!