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Click the “Test” button. The instrument type (PGZ402) and version are displayed. Ifit is not the case (communication failure (1) message), select “VoltaLab PGZ402”for “Potentiostat”, select the communication port (1 to 8) of the PC used for theconnection to the potentiostat for “Serial port” then click again the “Test” button.Select “Booster HCB005”, “Booster HCB010” or “Booster HCB020” for “Additionalunit”.Click the “Settings” button and enter the following settings and check that the Antioscillationfilter is cleared:With this settings, a 4-electrode cell is used with the connections performed asshown on page 181. The High Current Booster is an HCB010.The Vg potential applied by the PGZ402 is directly applied to REF2 versus REF1electrode by the HCB010 (Vg IN ----Vg OUT * (Gain = +1) + (Offset = 0)).The potential of REF2 versus the REF1 is measured and saved directly(E OUT ----- E(X) IN * (Gain = +1) + (Offset = 0)).The current flowing through the WORK electrode circuit is measured on a 2.5 Arange of the HCB010. That is to say ±2.5 A corresponds to ±1 V measured at thePGZ402 I(Y) IN socket. The current is saved with no amplification and no offset(I OUT ----- I(Y) IN * (Gain = +1) + (Offset = 0)).Click the “Test” button. The instrument types (PGZ402 and High Current Booster)and versions are displayed.VoltaLab 21/06/10/40/50/80 183Section 6, Chapter 8: HCB005 - HCB010 - HCB020 High Current Boosters