99 Series - Coil indication and EMC suppression modules 99.01 99.02 99.80 Sockets Relays Sockets Relays Sockets Relays 90.02 60.12 94.54.1 55.32, 55.34 90.20 60.12 90.03 60.13 94.82.3 55.32 90.21 60.13 92.03 62.32, 62.33 94.84.3 55.32, 55.34 94.72 55.32 94.02 55.32 84.84.2 55.32, 55.34 94.73 55.33 94.03 55.33 94.92.3 55.32 94.74 55.32, 55.34 94.04 55.32, 55.34 94.94.3 55.32, 55.34 94.82 55.32 95.63 40.31 95.03 40.31 95.55.3 40.51/52/61 95.05 40.51/52/61 44.52, 44.62 96.72 56.32 44.52, 44.62 95.83.3 40.31 96.74 56.34 95.55 40.51/52/61 95.85.3 40.51/52/61 44.52, 44.62 44.52/62 96.02 56.32 95.93.3 40.31 96.04 56.34 95.95.3 40.51/52/61 97.01/97.51 46.61 44.52, 44.62 97.02/97.52 46.52 FUNCTION / OPERATING RANGE CODE CODE CODE Green LED + diode module (standard polarity) 6 - 24 V DC 99.01.9.024.99 99.02.9.024.99 99.80.9.024.99 28 - 60 V DC 99.01.9.060.99 99.02.9.060.99 99.80.9.060.99 110 - 220 V DC 99.01.9.220.99 99.02.9.220.99 99.80.9.220.99 Green LED + diode module (non-standard polarity) 6 - 24 V DC 99.01.9.024.79 99.02.9.024.79 99.80.9.024.79 28 - 60 V DC 99.01.9.060.79 99.02.9.060.79 99.80.9.060.79 110 - 220 V DC 99.01.9.220.79 99.02.9.220.79 99.80.9.220.79 Green LED + Varistor module 6 - 24 V AC/DC 99.01.0.024.98 99.02.0.024.98 99.80.0.024.98 28 - 60 V AC/DC 99.01.0.060.98 99.02.0.060.98 99.80.0.060.98 110 - 240 V AC/DC 99.01.0.230.98 99.02.0.230.98 99.80.0.230.98 Green LED module 6 - 24 V AC/DC 99.01.0.024.59 99.02.0.024.59 99.80.0.024.59 28 - 60 V AC/DC 99.01.0.060.59 99.02.0.060.59 99.80.0.060.59 110 - 240 V AC/DC 99.01.0.230.59 99.02.0.230.59 99.80.0.230.59 Diode module (standard polarity) 6 - 220 V DC 99.01.3.000.00 99.02.3.000.00 99.80.3.000.00 Diode module (non-standard polarity) 6 - 220 V DC 99.01.2.000.00 99.02.2.000.00 99.80.2.000.00 RC module 6 - 24 V AC/DC 99.01.0.024.09 99.02.0.024.09 99.80.0.024.09 28 - 60 V AC/DC 99.01.0.060.09 99.02.0.060.09 99.80.0.060.09 110 - 240 V AC/DC 99.01.0.230.09 99.02.0.230.09 99.80.0.230.09 Residual current bypass module 110 - 240 V AC 99.01.8.230.07 99.02.8.230.07 99.80.8.230.07 199 Series - Coil indication and EMC suppression modules Voltage-current characteristic when Switching Relay Coils. switching a resistive load (fig. 1). To counteract this potentially damaging effect, When switching a resistive load, the current follows the phase of the voltage directly (Fig 1). relays coils can be suppressed with a Diode, a Varistor (voltage dependent resistor) or a RC U When switching relay coils the current and voltage(resistor/capacitor) module dependent on the waveforms are different due to the inductive natureoperating voltage. (See below for descriptions of I U the various Modules available.) ON OFF of the coil (Fig 2). A brief explanation of this R + I mechanism is as follows. Whilst the above description is based on the t On energisating the coil, the build up of theworking of a DC coil, the reverse polarity voltage magnetic field gives rise to counter electromotivepeak on de-energisation applies similarly to AC Voltage-current characteristic when coils. However, when energising AC coils there will forces which in turn delay the rise in coil current. switching a relay coil (fig. 2). On de-energisation, the sudden interruption of thealso be a coil inrush current of 1.3 to 1.7 times the U coil current causes a sudden collapse of thenominal coil current dependent on coil size. If magnetic field, which in turn induces a high voltagecoils are fed via a transformer (and particularly if I U of reverse polarity across the coil. This reverseseveral are energised at the same time) then this ON OFF R L + I may need to taken into account when calculating polarity voltage peak can reach a value typically 15 times higher than the supply voltage, and as athe VA rating of the transformer. t consequence can disturb or destroy electronic devices. Diagrams Functions 99.01.9.xxx.99 only 99.02.9.xxx.99 only Green LED +diode module (standard polarity) 99.80.9.xxx.99 only Recovery diode modules + LED are used for DC only. The reverse voltage peaks of the coil are short circuited by the recovery diode (positive to terminal A1). The release time increases by an approximate factor of 3. If an increase of the release time is undesirable use a Varistor or RC module. The LED indicator lights up when the coil is energized. 99.01.9.xxx.79 only 99.02.9.xxx.79 only Green LED +diode module (non-standard polarity) 99.80.9.xxx.79 only Recovery diode modules + LED are used for DC only. The reverse voltage peaks of the coil are short circuited by the recovery diode (positive to terminal A2). The release time increases by an approximate factor of 3. If an increase of the release time is undesirable use a Varistor or RC module. The LED indicator lights up when the coil is energized. Green LED +Varistor module LED modules + Varistor are used for both AC and DC coils. The reverse voltage peaks of the relay coil are limited by the Varistor to approximately 2.5 times the nominal voltage of the supply. When using DC coils it is essential that positive is connected to terminal A1. The relay release time increases insignificantly. Green LED module LED modules are used for AC and DC. The LED indicator lights up when the coil is energized. When using DC it is essential that positive is connected to terminal A1. 99.01.3.000.00 only 99.02.3.000.00 only Diode module (standard polarity) 99.80.3.000.00 only Recovery diode modules are used for DC only. The reverse voltage peaks of the coil are short circuited by the recovery diode (positive to terminal A1). The release time increases by an approximate factor of 3. If an increase of the release time is undesirable use a Varistor or RC module. 99.01.2.000.00 only 99.02.2.000.00 only Diode module (non-standard polarity) 99.80.2.000.00 only Recovery diode modules are used for DC only. The reverse voltage peaks of the coil are short circuited by the recovery diode (positive to terminal A2). The release time increases by an approximate factor of 3. If an increase of the release time is undesirable use a Varistor or RC module. RC module RC circuit modules are used for AC and DC coils. The reverse voltage peaks of the coil are limited by the RC module to approximately 2.5 times the nominal voltage of the supply. The relay release time increases insignificantly. Residual current bypass module Bypass modules are advisable if 110 or 230v AC relays show any tendency to fail to release. Failure to release can be caused by residual currents from AC proximity switches or inductive coupling caused through long parallel lying AC control lines. 2