Programmers & Tuners
AEM 6.5 BAR MAP or 100 PSIA Brass Sensor Kit & ...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 5 BAR MAP or 75 PSIA Stainless Steel Sensor...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 7 BAR MAP or 100 PSIA Stainless Steel Senso...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 34 BAR MAP or 500 PSIA Stainless Steel Sens...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 3.5 BAR MAP or 50 PSIA Stainless Steel Sens...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 139 BAR MAP or 2000 PSIA Stainless Steel Se...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 10 BAR MAP or 150 PSIG Stainless Steel Sens...
There are many different tools that can be used for measurement, but the degree of accuracy is de...
There are many different tools that can be used for measurement, but the degree of accuracy is dependent upon the tool. For example, a ruler can measure distance with a good degree of accuracy, but for a more precise measurement a caliper should be used. The difference between a brass pressure sensor and a stainless steel pressure sensor is similar if we think about it in these terms:
AEM 1 BAR MAP or 15 PSIA Stainless Steel Sensor...
AEM offers high quality stainless steel PSIa sensors in 15 (1BAR), 30 (2BAR), 50 (3.5BAR), 75 (5B...
AEM offers high quality stainless steel PSIa sensors in 15 (1BAR), 30 (2BAR), 50 (3.5BAR), 75 (5BAR) and 100 (7BAR). PSIa is referenced to absolute zero. Absolute zero is the pressure measurement when all the pressure exerted by the atmosphere has been removed. The most common use for absolute pressure sensors is reading manifold pressure. PSIa pressure sensors are required if you wish to measure vacuum. A PSIa sensor will read about 14.7 PSI when the sensing element is exposed to atmospheric...