Printing unit with tandem inkjet modules

The invention claimed is: 1 . A printing unit comprising: a unit chassis; and first and second opposed inkjet modules mounted in tandem on the unit chassis in forward and reverse orientations, each inkjet module having one respective printhead, wherein: each printhead comprises first and second rows of print chips mounted on a unitary surface of a respective ink manifold, the first and second rows of print chips comprising a plurality of print chips butted end-on-end along a length of the printhead; the printheads are wholly aligned with respect to a media feed direction for printing in four ink colors from the pair of printheads; the second inkjet module in the reverse orientation is rotated by 180 degrees relative to the first inkjet module in the forward orientation; and the first row of print chips in one printhead redundantly prints two colors of ink via a plurality of aligned nozzle rows for each color and the second row of print chips in said printhead redundantly prints the same two colors via a plurality of aligned nozzle rows for each color. 2 . The printing unit of claim 1 , wherein the first and second rows of print chips on each one of the printheads have 180-degree rotational symmetry. 3 . The printing unit of claim 2 , wherein compensatory sets of nozzles adjacent join regions in the first row of print chips are offset, with respect to the media feed direction, from compensatory sets of nozzles adjacent join regions in the second row of print chips. 4 . The printing unit of claim 1 , wherein each compensatory set of nozzles comprises dropped nozzle rows offset from main nozzle rows in each print chip, the print chip being configured to either delay or advance firing of the dropped nozzle rows relative to the main nozzle rows. 5 . The printing unit of claim 1 , wherein each printhead is asymmetrically disposed towards a front side of its respective inkjet module, and wherein the first and second opposed inkjet modules in said forward and reverse orientations position the pair of printheads in a relatively proximal arrangement and position a pair of cappers in a relatively distal arrangement. 6 . The printing unit of claim 5 , wherein a span of a print zone along the media feed direction is less than 20 cm. 7 . The printing unit of claim 6 , wherein each row of print chips has at least fourfold redundancy, whereby aligned nozzles of at least four nozzle rows are capable of printing onto a same pixel position. 8 . The printing unit of claim 1 , wherein the first and the second inkjet modules are pivotally mounted on the unit chassis for pivotally moving the inkjet modules towards and away from each other. 9 . The printing unit of claim 8 , wherein, in a clamshell-closed configuration, the printing unit is configured for printing and, in a clamshell-open configuration, a respective front face of each inkjet module is accessible for printhead replacement. 10 . The printing unit of claim 9 , wherein each inkjet module is independently pivotable relative to the unit chassis. 11 . The printing unit of claim 1 , wherein each inkjet module comprises a module chassis having a base plate with rear and end walls extending upwards therefrom. 12 . The printing unit of claim 11 , wherein each base plate is C-shaped in plan view having a pair of transverse arms extending parallel to the media feed direction from opposite ends of a longitudinal base member extending perpendicular to the media feed direction, each base plate defining an open longitudinal slot for receiving a respective printhead. 13 . The printing unit of claim 12 , wherein the first and second opposed inkjet modules in said forward and reverse orientations have opposed C-shaped base plates, such that the pair of open longitudinal slots are proximally positioned relative to the pair of longitudinal base members.