Binary ink developer (BID) assembly for liquid electrophotography (LEP) printing device

I claim: 1. A binary ink developer (BID) assembly for a liquid electrophotography printer (LEP), comprising: a developer roller that is rotatable; an electrically insulating exterior coating of the developer roller to receive ink from an ink supply and to transfer the received ink to a photoconductive imaging cylinder in accordance with an electrostatic image on the imaging cylinder, as the developer roller rotates; and a charge roller in contact with the electrically insulating exterior coating to place a charge on the exterior coating prior to the exterior coating receiving the ink, wherein the developer roller is not voltage-biased within the BID assembly. 2. The BID assembly of claim 1 , wherein the charge roller and the electrically insulating exterior coating minimize increasing an electrical field within the ink, upon providing of the ink to the electrically insulating exterior coating. 3. The BID assembly of claim 1 , wherein the electrically insulating exterior coating has a thickness specified as a number of microns, the thickness having an an order of magnitude between zero and one. 4. The BID assembly of claim 1 , further comprising: a squeeze roller in rotatable contact with the electrically insulating exterior coating to decrease a thickness of the ink received on the exterior coating prior to transfer of the received ink to the photoconductive imaging cylinder; and a cleaner roller in rotatable contact with the exterior coating to remove any residual ink from the exterior coating after the transfer of the received ink to the imaging cylinder. 5. A liquid electrophotography (LEP) printing device comprising: a binary ink developer (BID) assembly to receive ink from an ink supply and comprising a developer roller with an electrically insulating exterior coating; a photoconductive imaging cylinder to which the BID assembly is to transfer the ink in accordance with an electrostatic image on the imaging cylinder; and a charge roller in contact with the electrically insulating exterior coating to place a charge on the exterior coating, wherein the developer roller is not voltage-biased within the BID assembly. 6. The LEP printing device of claim 5 , wherein the BID assembly minimizes increasing an electrical field within the ink, upon providing of the ink to the BID assembly. 7. The LEP printing device of claim 5 , wherein the ink provided by the ink supply to the BID assembly is electrically conductive ink, wherein no positive charge is transferred to the electrically conductive ink by the BID assembly. 8. A method comprising: receiving, by an electrically insulating exterior coating of a developer roller of binary ink developer (BID) assembly of a liquid electrophotography (LEP) printing device, electrically conductive ink while the developer roller is in rotatable contact with a photoconductive imaging cylinder; transferring the received electrically conductive ink from the developer roller to the imaging cylinder in accordance with an electrostatic image on the imaging cylinder, without any electrically conductive ink transferring to the imaging cylinder at background portions of the electrostatic image; and placing, by a charge roller in contact with the electrically insulating exterior coating, a charge on the exterior coating prior to the exterior coating receiving the ink, wherein the developer roller is not voltage-biased within the BID assembly. 9. The method of claim 8 , wherein no positive charge is transferred to the electrically conductive ink within the BID assembly.