Illustration 1 | g00481725 |
Functional Block Diagram Of The AC Voltage Display In EMCP II+ |
Illustration 2 | g00436699 |
Relays In Relay Module (1) Jumper block |
AC Voltage Range Selection     | ||||
---|---|---|---|---|
GSC+ P020 Setpoint     | External Potential Trans- former     |
AC Trans- former Box (ATB+) Input Voltage Range     |
GSC+ Internal Multiplier     | Jumper     |
700     | None     | 0 - 700     | 5     | Required     |
150     | None     | 0 - 150     | 1     | None     |
300     | 2:1     | 0 - 150     | 2     | None     |
500     | 3.33:1     | 0 - 150     | 3.33     | None     |
600     | 4:1     | 0 - 150     | 4     | None     |
750     | 5:1     | 0 - 150     | 5     | None     |
3000     | 20:1     | 0 - 150     | 20     | None     |
4500     | 30:1     | 0 - 150     | 30     | None     |
5250     | 35:1     | 0 - 150     | 35     | None     |
9000     | 60:1     | 0 - 150     | 60     | None     |
15000     | 100:1     | 0 - 150     | 100     | None     |
18000     | 120:1     | 0 - 150     | 120     | None     |
30000     | 200:1     | 0 - 150     | 200     | None     |
Jumper block (1) is used to select the voltage range of the voltmeter of the GSC+. The jumper block (1) is installed for systems with 700 volts full scale AC inputs. Jumper block (1) is NOT installed for systems with 150 volts full scale AC inputs or for any unit with external potential transformers. The relay module is factory equipped with the jumper block (1).
Jumper block (1) is easily removed by pulling out. Jumper block (1) is easily installed by aligning and then pushing in. If a jumper block is not available, three separate jumpers can be substituted. Each of the three manufactured jumpers connect a pair of pins. A pair of pins must not touch another pair of pins.
The relay module must be removed from the GSC+ in order to gain access to the circuit board and jumper block (1). See Testing And Adjusting, "Relay Module - Replace".
The setpoint P020 sets the AC voltage range and the internal multiplier. This is used by the GSC+ for calculating AC voltage. The GSC+ uses the internal multiplier to compensate for the turns ratio of the external potential transformers. The turns ratio of the external potential transformer must match this internal multiplier in order to ensure accurate AC voltage calculation by the GSC+.
The jumper block connects a divide-by-five circuit to the AC voltage input of the GSC+. The divide-by-five circuit reduces the AC voltage input to a controllable level for the GSC+ when P020 is 700. When setpoint P020 is 700, a multiplier of five is needed to compensate for the presence of the divide-by-five. This is required even though no external potential transformer is present.
Note: When the setpoint P020 is not equal to 700, the jumper block should NOT be installed. This prevents inaccurate calculations of the voltage by the GSC+. The other values (150 through 30, 000) are used with an external potential transformer. The input voltages at the AC Transformer Box + are from 0 ACV to 150 ACV. No further reduction of the input voltage is required.