Twenty Seven Co. Limited announced it has identified a significant chargeability anomaly coincident with previously identified anomalous copper (Cu) and cobalt (Co) in rock chips at the Benco prospect, Midas Project, Broken Hill. Follow-up DDIP sections over three chargeability anomalies at Benco has defined three compelling targets for drill testing. TSC first announced Benco prospect in October 2018 with the discovery of previously unrecorded workings over a quartz iron oxide vein with anomalous Cu and Co1. Since October TSC has conducted regional soil sampling, mapping and detailed rock chip sampling to understand the breadth of mineralised veins at Benco2. Several narrow quartz iron oxide vein sets have been mapped within an NE trending corridor 1.6km long by 300m wide. In late December, TSC undertook a reconnaissance gradient array induced polarization (IP) survey over Benco with the aim of determining the most prospective Cu-Co zones along the Benco Corridor. Results received from the gradient array successfully defined numerous chargeable zones. The survey was then extended to the northeast following promising IP responses that were also coincident with Cu-Co anomalism from rock chip samples. This additional gradient array grid to the northeast, produced an even stronger IP response along a major geological contact between the Thackaringa Group and the Adelaidean rocks. These chargeable zones are coincident with resistive areas suggesting they are not due to conductive shales or clay rich cover. Three chargeable zones (M1, M2, M5) were selected from the gradient array IP results by a consultant geophysicist for DDIP (dipole-dipole IP) sections. These results were very encouraging, the consultant concluding that all three DDIP sections "show compelling targets". The IP chargeability anomalies on all three DDIP sections are within 100m of surface, while the two conductivity anomalies on L 71900N and L 71400N are deeper at around 150 to 200m and will be better defined with a ground EM survey planned for early February.