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| om General conditions .c 4U et he aS at .D Electrical Characteristics w w w 1) SKHIT 01 Term Values 2500 0... + 60 -25... + 70 Units V C C SCR / Thyristor Trigger Module SKHIT 01 * SCR / Thyristor driver for three Isolation test voltage input - output (2 sec. AC) Operating temperature Storage temperature phase half controlled bridge Preliminary Data Values min. typ. - - 10 480 400 12 8,3 1) Term max. Units 528 - 15 10 V mA s Operating voltage (phase to phase) Trigger current (output) Trigger current pulse length Pulse current cycling frequency Power supply Supply voltage Supply current (standby) Supply current (max.) Signals SCR / Thyristor trigger enable threshold (HIGH) SCR / Thyristor trigger enable threshold (LOW) Input current On" Open collector error outut (error = Low) UCE (IC =4 mA) IC maximum rating voltages - power to earth (overvoltage cat. III) - power to logic (overvoltage cat. II) - logic to earth 1) @ Tamb = 25 C I:\Marketin\FRAMEDAT\datbl\Treiber\SKHIT01.fm m o .c U t4 e e h S ta a .D w w w 6,6 kHz 14,4 - - 15 60 15,6 - - V mA mA 150 3,9 - - - 5,5 1 - V V -0,5 10 mA - - - - 1 5 V mA 300 900 60 Veff Veff Veff patent DE 197 10 371 Features * SKHIT 01 can be soldered directly onto a printed circuit board * isolation by transformers (DC/ DC) and optocoupler (signal) Typical Applications * DC-link voltage converter with precharge circuit (c) by SEMIKRON 020715 om .c 4U et he aS at .D w w w 1 SKHIT 01 PIN array Interface (Power connectors: Plug connector RM 2,54 mm for soldering onto the PCB) PIN X1 X2 X3 X4 X6 X8 X10 X17 X18 X19 X20 X22 X24 Signal +UG TG1 TG2 TG3 L1 L2 L3 + 15 V NC BSS BSS THO BB Description Ground connection secondary circuit Gate SCR / thyristor 1 Gate SCR / thyristor 2 Gate SCR / thyristor 3 Line voltage L1 Line voltage L2 Line voltage L3 + 15 V - supply voltage System ground connection System ground connection SCR / thyristor trigger enable Error indication Fig. 1 Block diagram of SKHIT 01 2 020715 (c) by SEMIKRON SKHIT 01 84 I:\Marketin\FRAMEDAT\datbl\Treiber\SKHIT01.fm 5,08 17,78 2,54 2,0 Fig. 2 Dimension drawing and PIN array of SKHIT 01 (c) by SEMIKRON 020715 3 17 drilling diameter: 0,8 mm 6,5 38 SKHIT 01 SCR / Thyristor Trigger Module SKHIT 01 The SCR / thyristor trigger module SKHIT 01 has been designed for triggering half controlled bridges. Application range When switching on a DC-link voltage converter the DClink capacitors are uncharged and are, thus, signalizing a short circuit situation to the applied supply voltage. Therefore, the charge current has to be limited to the rated value by switching suitable circuits; SEMIKRON prefers to realize those circuits without electromagnetic components such as relays or contactors. Instead of an uncontrolled B6-diode input bridge (B6U), a half-controlled diode thyristor bridge is used (B6H). Description of the block diagram (Fig. 1) A cycle generator (4) and a decimal counter (5) generate square-wave signals, which are to each other timedelayed with a cyclic duration factor of 10s and a frequency of 10kHz. These pulses are directed to the single thyristor gates via comparators and output amplifiers (6) as well as series resistors (7). If the voltage applied to the thyristor is negative or if there is no release signal, the trigger pulse signals will be suppressed. The phase relationship of the driver pulses is independent of the phase relationship of the line voltage. The trigger enable signal (THO) is transmitted to the process logic via an optocoupler (3). The ground connection of the control logic of an inverter is not identical with the ground connection of the thyristors. The ground connection potential of the secondary circuit of the thyristor trigger stage (BSU) is identical with the positive rectifier output voltage "+UG", while the input ground connection potential normally is identical with the logic potential "BSS". The required supply voltage is transmitted via a DC/DC-converter (1). The feedback signal "ready for operation" (BB) is set to LOW, if the thyristor trigger enable signal is not applied (THO=Low). Mounting instructions * The SKHIT 01 thyristor driver has been designed for Fig. 3 Charge circuit At beginning of the switch-on process the thyristors are blocked, the DC-link capacitors are charged via diodes D1 - D3 and Rcharge (fig. 3). After having finished the charging process, the thyristors have permanently to be triggered by a driver stage such as the SKHIT 01. Technical explanations Conventional thyristor drivers use to trigger the thyristors in synchronization with the line voltage, i.e. the trigger signal is given out at a (variable) phase angle of the line voltage. However, such an angle control is only necessary for controlling the rectifier output voltage. The SKHIT 01 fades out the trigger pulses at negative thyristor voltage. vertical mounting (soldering) to PCBs. * The driver should be placed as close as possible to the thyristors. * The necessary creepage paths on the PCB have to be dimensioned according to the application-specific voltage ratings. Further application notes The PCB-mountable thyristor driver SKHIT 01 is delivered as a subcomponent for a driving system dimensioned by the user. The responsibility for proper system operation, especially with view to keeping the valid standards, is taken only by the user. This technical information specifies devices but promises no characteristics. No warranty or guarantee expressed or implied is made regarding delivery, performance or suitability. 4 020715 (c) by SEMIKRON |
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