The reaction of (eta(5)-C5MeS)Re(NO)(PPh3)(C=CC=CSiMe3) and (eta(5)-C5Me5)Fe(eta(2)-dppe)(Cl) with KF, KPF6, and 18-crown-6 in MeOH/THF gives the heterobimetallic butadiynediyl complex (eta(5)-C5Me5)Re-(NO)(PPh3)(C=CC=C)(eta(2)-dppe)Fe(eta(5)-C5Me5) (9, 65%). This can be oxidized with [(eta(5)-(C5H5)(2)Fe)](+) PF6- to the isolable radical cation 9(+) PF6-and dication 9(2+) 2PF(6)(-), which constitute the first conjugal consanguineous family of C-x complexes. The crystal structure of 9 is determined, and 9(n+) nPF(6)(-) are characterized in detail by cyclic voltammetry (CV) and IR, NMR, near-IR, ESR, and Fe-57 Mossbauer spectroscopies. The bond lengths/angles suggest some bridge polarization in 9, and CV data show that the iron and rhenium endgroups communicate strongly. The odd electron in 9(+) PF6- is delocalized between the endgroups. In 9(2+) 2PF(6)(-), both electronic and magnetic interactions are found between remote unpaired spins on the rhenium and iron endgroups. This antiferromagnetic coupling stabilizes the singlet cumulenic over the tripler butadiynediyl state. At room temperature, however, both isomers of 9(2+) 2PF(6)(-) are simultaneously present. Data are carefully compared to those of the analogous consanguineous diiron and dirhenium complexes.