DE2245264A1 - KINEMATOGRAPHIC CAMERA - Google Patents

Description

Cinematographic camera The invention relates to a cinematographic camera Camera with a contact device that can be closed periodically by the camera drive for generating synchronization pulses for the door support of a magnetic sound device.

The invention is based on the object of a cinematographic camera of the type mentioned to create that without any additional equipment Can be connected to conventional magnetic sound recorders in order to generate synchronization impulses for sound film recordings to be transmitted on the magnetic sound carrier.

According to the invention this is achieved in that a monostable, consisting of nand-itters, controllable by the contact device Trigger stage as well as one controllable by the monostable trigger stage, also made of NAND gates existing, audio-frequency signals generating astable level vibrator provided are, the output of which can be connected directly to the Nagnettone device via a connecting cable is. The use of the NAND gate has the advantage that to achieve the monostable and astable multivibrator circuit only a few additional electrical ones Components are required, which gives the advantage is that can be managed with little space.

The elements can therefore be stored in the camera housing in a space-saving manner accommodate. The further essential advantage is that the inventive cinematographic mera can be connected to any magnetic device. The operation of the camera is therefore very easy. All you need is a magnetic device and a single connection cable.

According to a further training is between the monostable multivibrator and the astable level vibrator is provided with an inversion stage.

The two multivibrators are advantageously in the output circuit a voltage stabilization stage arranged. As a tension stabilization stage can be used in an advantageous manner, the base of a transistor with a a voltage divider containing a zener diode is connected. The two level vibrators are then expediently to be arranged in the emitter circuit of the transistor.

The two multivibrators consist of further training two nand gates each. The first input is the N nd-G tter of the monostable Multivibrator is connected to the contact device, while the second input of the first NAND gate is connected to the output of the second NAND gate. The output of the first NAND gate is connected to the first via an isolating capacitor Input of the second NAND gate connected, the second input not connected is.

A connection leads from the output of the inverter to the first input of the first NAND gate of the astable Multivibrators, its second Input is connected to an RC element.

In the following the invention is a: chand one shown in the figure Exemplary embodiment described.

The figure shows the circuit arrangement for generating the synchronization pulses.

According to the figure, 1 indicates a kinematographic camera. A drive motor 2 with a cam disk 3 is provided in the camera housing the pulse contact 4 can be actuated. A monostable hultivibrator has two Nand gates 5 and 6. One input of the NAND gate 5 is with the pulse contact 4 connected, while the other input of the NAND gate 5 to the output of the second Nand gate is connected.

A connection leads from the output of the NAND gate 5 to a charging capacitor 7, which forms a timing element with a resistor 8. The 5 facing away from the NAND gate The side of the capacitor 7 is connected to the first input of the NAND gate 6. The second input of the NAND gate 6 is not connected.

A connection also leads from the output of the NAND gate 6 a resistor 9 to the base of a reversing transistor 10, in its collector circuit a resistor 11 is provided.

An astable multivibrator has two NAND gates 12 and 13. The first input of the NAND gate 12 is connected to the collector of the inverting transistor 10 connected while the second input of the NAND gate 12 via a resistor 14 is connected to the negative pole of a voltage source 15.

The second input of the NAND gate 12 is also via a charging capacitor 15, which together with the resistor n forms a first timing element with the output of the second NAND gate 13 connected. The exit of the Nand-Glitter 12 is over a charging capacitor 17 is connected to the first input of the NAND gate 13. This The input of the Nand-G tters 13 is also connected to the negative pole via a resistor 18 the voltage source 15 connected.

The capacitor 17 and the resistor 18 form a second timing element. The second input of the NAND gate 13 is not connected.

The output of the NAND gate 13 is via a coupling capacitor 19 connected to a resistor 20 to which the series connection of a resistor 21 and a capacitor 22 is connected in parallel. Two output sockets are with 23 and 24 designated. The supply voltage for the IT-ind gates 5, G, 12 and 13 as well as for the reversing transistor 10 is stabilized by a transistor 25, whose Bsis is connected to a voltage divider, which consists of a resistor 26 and a Zener diode 27 is made.

A magnetic sound device is indicated by 28. One labeled 29 Sound head is connected to two input sockets 30 and 31, which are connected via connecting lines 32 and 33 are connected to the output sockets 23 and 24 of the cinematographic camera 1 are. The inductance of the sound head 29 forms a xesonance circuit with the capacitor 22, whose resonance frequency is 1,000 IIz.

The mode of operation is now as follows: When the engine is at a standstill, 2 is The pulse contact 4 is open When the pulse contact 4 is open, there is positive potential at the associated input of the NAND gate 5. Since the bus path of the NAND gate 5 from NAND gate 6 is decoupled in terms of direct current through the capacitor 7, is above the resistor 8 ninus potential at the relevant input of the NAND gate 6. Accordingly the potential ani output of the NAND gate 6 is positive. Hence that too Potential at the other input of the NAND gate 5 is positive.

The output of the NAND gate 5 is therefore negative. The condenser 7 is therefore discharged.

Since there is a positive potential at the output of the NAND gate 6 the reversing transistor 10 is turned on and consequently with the collector of the Transistor 10 connected input of the NAND gate 12 connected to Nina potential. Since the other input of the NAND gate 12 via the resistor 14 also with Nine potential is connected, is at the output of the NAND gate 12 positive potential available. At the input of the NAND gate 13 there is a positive voltage at9 which is given is by the dividing ratio of the resistor 18 and not shown, in the NAND gate 13 existing resistance lines. The output of the NAND gate 13 has a middle one Potential. Since the input of the connected to the collector of transistor 10 Nand gate 12 is set to ninus potential, the astable level vibrator is located in a stable state and consequently cannot vibrate.

When the cinematographic camera 1 is started up, the motor 2 is switched on and consequently the pulse contact 4 is closed, then during a time which is given by the values of the resistor 8 and the capacitor 7, turned on at the base of the transistor 10, a negative potential, which leads to The consequence was that the transistor 10 is blocked during this time.

During this time it is due to the one with the collector of the transistor 10 connected input of the NAND gate 12 positive potential. As a result of the the resistor 14 in the NAND gate 12 connected resistor sections, the lower resistance are, as the resistance value of the resistor 14, the potential jumps at the second Input of the NAND gate 12 to a positive value.

Since there are 12 positive potentials at both inputs of the NAND gate are, the potential at the output of the NAND gate 12 jumps to the negative value of the voltage source 15. This negative edge is transferred to the input of the Nand gate 13, the output voltage of which is shifted towards more positive values. This positive edge is applied to the second input of the NAND gate via the capacitor 16 12 transferred.

The previously charged capacitor 17 discharges through the resistor 18. The capacitor 16 charges through the resistor 14, so that after a certain Time the potential at the second input of the NAND gate 12 the negative value of the battery 15 assumes. After the threshold value is exceeded, the voltage at the output jumps of the NAND gate 12 back to a positive value. The previously discharged condenser 17 can now recharge itself. During the period on the first input of the NAND gate 12 is positive voltage, the astable oscillates flultivibrator with a certain frequency.

The capacitors 16 and 17 and the resistors are expedient 14 and 18 dimensioned so that a frequency of 1,000 Rz results. This square pulse train is through the resonance circuit consisting of the cord capacitor 22 and the inductance of the sound recording head 29 is converted into an almost pure sine wave.

After opening the pulse contact 4 receives the base of the transistor 10 again positive potential, which has the consequence that the astable multivibrator is stopped again.

Claims (3)

Expectations 1. Cinematographic camera with a periodically driven by the camera closable contact device for generating synchronization pulses for the sound carrier of a magnetic recorder, characterized in that in the camera housing (1) One consisting of Ifind G tterns (5, 6) and controllable by the contact device (4) monostable multivibrator as well as one controllable by the monostable multivibrator, likewise Astable ones that consist of Nand-G tterns (12,19) and generate audio-frequency signals Multivibrator are provided, the output of which is via a connecting line (, 2,5-,) can be connected directly to the magnetic sound device (28). 2. Cinematographic camera according to claim 1, characterized in that that between the monostable multivibrator and the astable multivibrator one Reversing stage (10) is provided. 3. Cinematographic camera according to claim 1 or 2, characterized in that that the two multivibrators in the output circuit of a voltage stabilization stage (25, 26,2 /) are arranged.