This letter presents an SRAM-based compute-in-memory (CIM) macro that uses 1-bit $\Delta \Sigma$ modulators to convert input and output activations to binary pulse waveform. The SRAM macro uses switched-capacitors for vector matrix multiplications and together with binary input activation improves linearity compared to current-domain SRAM CIM macros and allows reconfigurable activation resolution. The proposed macro is fabricated in 65 nm and benchmarked on MNIST and CIFAR-10 datasets with accuracies of 98.67% and 89.85%, respectively, with energy-efficiency in the range of 15.4–138.6 TOPS/W.