Is there a good notion of the spectrum of units $R^*$ in a (possibly non-connective) $E_\infty$-ring spectrum $R$?

A standard definition (see section 1.2 in http://arxiv.org/pdf/0810.4535v3.pdf) seems to output a *connective* spectrum $gl_1(R)$: the underlying space is the fibre of $\Omega^\infty(R) \to \pi_0(R)$ over the units $\pi_0(R)^\times \subset \pi_0(R)$. While this is completely reasonable if $R$ is itself connective, is there is a better operation when one does not assume $R$ to be connective?