In a
reciprocating engine, top dead centre of piston #1 is the point from which
ignition system measurements are made and the
firing order is determined. For example,
ignition timing is normally specified as degrees of crankshaft rotation
before top dead centre (
BTDC). A very few small and fast-burning engines require a spark just
after top dead centre (
ATDC), such as the
Nissan MA engine with hemispherical
combustions, or
hydrogen engines. Top dead centre for cylinder one is often marked on the crankshaft pulley, the
flywheel or
harmonic balancer or both, with adjacent
timing marks showing the recommended ignition timing settings as decided during engine development. The timing marks can be used to set the ignition timing either statically by hand or dynamically using a
timing light, by rotating the
distributor in its seat. In a multi-cylinder engine, pistons may reach top dead centre simultaneously or at different times depending on the
engine configuration. For example: • In the
V-twin configuration, the two pistons reach TDC at different times, equal to the
angular displacement between the cylinders. • In the
flat twin configuration, two opposing pistons reach TDC simultaneously, which is also called 0° displacement, but one piston will be at TDC of the compression stroke, the other on TDC of the exhaust stroke. • In the
straight-4 configuration, the two end pistons (pistons 1 and 4) reach TDC simultaneously, as do the two centre pistons (pistons 2 and 3), but these two pairs reach TDC with an angular displacement of 180°. Similar patterns are found in almost all
straight engines with even numbers of cylinders, with the two end pistons and two middle pistons moving together (not necessarily 180° out of phase however) and the intermediate pistons moving in pairs in mirror-image around the centre of the engine. • In the flatplane
V8 and many larger
V engines, the piston motion within each bank is similar to that of a straight engine, however in the
crossplane V8 and all
V10 engines the motion is far more complex. The concept of top dead centre is also extended to
pistonless rotary engines, and means the point in the cycle in which the volume of a combustion chamber is smallest. This typically occurs several times per rotor revolution. In the
Wankel engine for example, it occurs three times for every one revolution of the rotor (although only once per revolution of the engine output shaft, since the output rotates at three times the speed of the rotor). Finding the volume of the cylinder using TDC and BDC and multiplying it by the number of cylinders will give the
engine displacement. ==Steam engines==