10.7 RC circuit of the speed controller 11. LED indicators 12. Remedying faults 13. Installation guidelines 13.1 Connection diagram SGP 160-2,5 (P) /4 (P) 13.2 Connection diagram SGP 160-8P/16P 13.3 Dimensional drawing 13.4 Radio interference suppression and shielding 13.5 Arrangement 13.6 Shielding...
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SGP 160-2,5/4/8P/16P These commissioning instructions were prepared with great care. Nevertheless, PETER electronic GmbH & Co. KG does not assume liability for damage resulting from mistakes possibly contained in this manual. Technical changes that serve to improve the product are subject to change without notice.
SGP 160-2,5/4/8P/16P Safety notes The described devices are electrical equipment for use in industrial electrical power installations. An impermissible removal of the covers during operation can cause serious damage to your health, since these devices contain live parts with high voltages.
SGP 160-2,5/4/8P/16P General description The electronic speed controllers SGP 160-2.5/4/8P/16P are used for the speed control of d.c. shunt-wound motors with external and permanent excitation. A remarkable feature of these controllers is the high speed stability, irrespective of fluctuations in temperature, voltage and load.
(authorized representatives of the manufacturer / companies placing the product on the market that are established within the Community) Name / Address: PETER electronic GmbH & Co. KG Bruckäcker 9 92348 Berg hereby declares that the following product (device, component, unit) in the version as supplied...
SGP 160-2,5/4/8P/16P Block diagram Setpoint Speed Current Pulse Power integrator controller controller stage unit Mains I max n min Isolating module n max as option Functional description Speed setpoint The setpoint voltage is 0 ... 10VDC. The setpoint value can be generated either by means of the potentiometer or externally.
SGP 160-2,5/4/8P/16P Technical data SGP 160-2,5 SGP 160-4 SGP 160-8P SGP 160-16P 230V ±15% 50/60Hz Operating voltage acc. to DIN EN 50160 (IEC38) max. Motor shaft power 0,25kW 0,37kW 0,9kW 1,8kW Armature voltage 0 ... 180VDC eff. Armature current 2,5A...
Connection Only connect according to the attached terminal diagram. Power unit (Terminal strip version acc. to DIN 41617 indicated in brackets only for SGP 160-2,5/4) SGP 160-2,5/4 SGP 160-8/16P Terminal 16 (1, 2)
SGP 160-2,5/4/8P/16P 10. Parameter adjustments 10.1 Ramp-up and ramp-down times With the trimmer t (P2) the ramp-up and the ramp-down can be adjusted between 0 ... approx. 5sec. When the controller inhibit is actuated, the ramp-up integrator is reset. 10.2 Maximum speed With the trimmer n (P3) max.
SGP 160-2,5/4/8P/16P 10.7 RC circuit of the speed controller The circuit of the speed controller is so designed that the controller can be used for a variety of drive cases without changing the circuit. However, in some extreme cases, e.g., heavy gyrating masses of the machines, it may become necessary to change the factory-installed circuit.
SGP 160-2,5/4/8P/16P 13. Installation guidelines 13.1 Connection diagram SGP 160-2,5 (P) /4 (P) Plug-connector version indicated in brackets 9 10 12 13 14 15 16 Smoothing reactor Controller inhibit When the contact is open the controller Mains is inhibited filter...
SGP 160-2,5/4/8P/16P 13.2 Connection diagram SGP 160-8P/16P Connection Control unit Connection Power unit (6-pole terminal strip) (6-pole terminal strip) Connection in the case of armature voltage control connection in the 220V case of Tacho 50/60Hz +A +C -D control Controller inhibit...
SGP 160-2,5/4/8P/16P 13.3 Dimensional drawing SGP 160-2,5/4 SGP 160-2,5 = 35mm Depth: SGP 160-4 = 45mm SGP 160-8P/16P I max t int N max N min R 27 Depth: 115mm...
SGP 160-2,5/4/8P/16P 13.4 Radio interference suppression and shielding Even when installing thyristor controllers, interference from the realm of radio interference suppression and immunity must be reduced to a tolerable level (EC-EMC-guidelines). An inter- ference suppression that has to be subsequently implemented in an already installed system often causes high costs.
SGP 160-2,5/4/8P/16P 13.7 Cabling To avoid mutual interference/cross couplings when laying the cables, it must be ensured that a minimum distance of 20 cm is maintained between control cables and power cables. If control cables have to cross power cables they have to be laid at an angle of 90° (Figure 3).