Endless drive arrangement and improved two-armed tensioning system for same

The invention claimed is: 1. A tensioner for tensioning an endless drive arrangement on an engine including a crankshaft pulley driven by a crankshaft, a motor/generator unit (MGU) pulley, and an endless drive member entrained about the crankshaft pulley and the MGU pulley, wherein the endless drive arrangement is operable in a first mode in which the crankshaft pulley drives the endless drive member and the MGU pulley does not drive the endless drive member such that tension in a first span of the endless drive member is lower than a second span of the endless drive member, and wherein the endless drive member is operable in a second mode in which the MGU pulley drives the endless drive member in isolation or in conjunction with the crankshaft pulley, the tensioner comprising: a first tensioner arm that is pivotable about a first arm pivot axis and which has a first tensioner pulley rotatably mounted thereto for rotation about a first tensioner pulley axis that is spaced from the first arm pivot axis, wherein the first tensioner pulley is configured for engagement with the first span of the endless drive member; a second tensioner arm that is pivotable about a second arm pivot axis, which is spaced apart from the first arm pivot axis, and which has a second tensioner pulley rotatably mounted thereto for rotation about a second tensioner pulley axis that is spaced from the second arm pivot axis, wherein the second tensioner pulley is configured for engagement with the second span of the endless drive member; a tensioner biasing member that is positioned to bias the first and second tensioner arms in a first free arm direction and in a second free arm direction, respectively, wherein the first tensioner pulley is disposed on a first side of the first tensioner arm pivot axis, and the tensioner biasing member is positioned to apply the tensioner biasing force on a second side of the first tensioner arm pivot axis, and wherein the second tensioner pulley is on a first side of the second tensioner arm pivot axis, and the tensioner biasing member is positioned to apply the tensioner biasing force on a second side of the second tensioner arm pivot axis; and a second tensioner arm stop surface that is positioned to limit the movement of the second tensioner arm in a direction opposite the second free arm direction, wherein, under static equilibrium, due at least to the configuration of the first and second tensioner arms, the positions of the first and second tensioner arm pivot axes, the wrap of the endless drive member about the first and second tensioner pulleys, and the position of the second tensioner arm stop surface, the second tensioner arm has a preload torque from a combination of torques applied by at least the endless drive member and the tensioner biasing member, wherein the preload torque urges the second tensioner arm into engagement with the second tensioner arm stop surface and is between about 1 Nm and about 15 Nm such that, in use, the second tensioner pulley is engaged with the endless drive member while the second tensioner arm is engaged with the second tensioner arm stop surface in the first mode of operation and in the second mode of operation unless a transient torque acting opposite the preload torque exceeds the magnitude of the preload torque by a sufficient amount. 2. A tensioner as claimed in claim 1 , wherein the endless drive member is configured to engage each of the first and second tensioner arm pulleys over a wrap angle that is between about 10 degrees and about 90 degrees. 3. A tensioner as claimed in claim 1 , wherein the tensioner biasing member is a compression spring. 4. A tensioner as claimed in claim 1 , wherein the tensioner biasing member is positioned to apply a torque to the second tensioner arm that is opposed to a torque exerted on the second tensioner arm by the endless drive member, in use. 5. A tensioner as claimed in claim 1 , further comprising a first tensioner arm stop surface that is positioned to limit the movement of the first tensioner arm in a direction opposite the first free arm direction, wherein the first tensioner arm stop surface is positioned such that, in use, the first tensioner pulley is engaged with the endless drive member while the first tensioner arm is engaged with the first tensioner arm stop surface in the second mode of operation when a transient torque acting opposite the preload torque exceeds the magnitude of the preload torque by a sufficient amount. 6. A tensioner as claimed in claim 1 , wherein the preload torque is between about 3 Nm and about 5 Nm. 7. An endless drive arrangement, comprising: a crankshaft; a secondary drive device; an endless drive member connecting the crankshaft and the secondary drive device; a tensioner, including a first tensioner arm that has a first tensioner pulley rotatably mounted thereto, wherein the first tensioner pulley is engaged with a first span of the endless drive member on a first side of the secondary drive device, wherein the first tensioner arm is pivotable about a first tensioner arm pivot axis; a second tensioner arm that has a second tensioner pulley rotatably mounted thereto, wherein the second tensioner pulley is engaged with a second span of the endless drive member on a second side of the secondary drive device, wherein the second tensioner arm is pivotable about a second tensioner arm pivot axis; a tensioner biasing member that is positioned to apply a tensioner biasing force to bias the first and second tensioner arms in respective first and second free arm directions; and a second tensioner arm stop that is positioned to limit the movement of the second tensioner arm in a direction opposite the second free arm direction, wherein the second tensioner arm stop is positioned such that, in use, the second tensioner pulley is engaged with the endless drive member while the second tensioner arm is engaged with the second stop throughout a selected range of operating conditions, and wherein TR TL > hF ⁢ ⁢ 2 hF ⁢ ⁢ 1 where TR=TR 2− TR 3, TL=TR 4− TR 5, TR 2 =the moment arm relative to the second tensioner arm pivot axis of a force T 2 exerted on the second tensioner pulley by a first portion of the second span of the endless drive member, TR 3 =the moment arm relative to the second tensioner arm pivot axis of a force T 3 exerted on the second tensioner pulley by a second portion of the second span of the endless drive member, TR 4 =the moment arm relative to the first tensioner arm pivot axis of a force T 4 exerted on the first tensioner pulley by a first portion of the first span of the endless drive member, TR 5 =the moment arm relative to the second tensioner arm pivot axis of a force TS exerted on the first tensioner pulley by a second portion of the first span of the endless drive member, hF 1 =the moment arm relative to the first tensioner arm pivot axis of a force FL exerted on the first tensioner arm by the tensioner biasing member, and hF 2 =the moment arm relative to the second tensioner arm pivot axis of the force FL exerted on the second tensioner arm by the tensioner biasing member. 8. An endless drive arrangement as claimed in claim 7 , wh