DE1802399C - Process for the automatic ciphering and deciphering of signal impulses - Google Patents

Description

signal 2 / gives. The comparator 17 includes one Encryption circuit, which is broken when two signals have the same polarity, and the is closed when the polarity is different. The pulse train 2 / controls a low frequency oscillator 18, the output signal of which represents the plain text that can be listened to.

The code apparatus is primarily intended for simplex traffic, whereby the apparatus, as described, is switched by the switch 20, 21 from transmission to reception. It is assumed that the Station with which one is in communication has a corresponding code apparatus. The frequency standard 1 in the two code machines will ensure that? the pulse frequency on both sides very close to the same is synchronization and phase-in-phase automatically due to the fact that the received pulse train 2; from the detector circuit 16 is also fed to a comparator 8, which automatically the pulse frequency and phase of the receiving station with the pulse generator of the Synchronized transmitter station. The switch section 21 is open during transmission and when receiving closed, and together with the switch section 20 it forms a switch unit for transmission / reception.

When the traffic is established, the code generator 9 is blocked by the gate circuit 6. That sent out The signal then consists of regular pulses, but becomes normal encryption characters in the comparator 17 be reshaped. The broadcast is "scrambled" but not encrypted. In order to start the code generators, the transmitter station must send a certain start signal, which is on the receiving station is fed to the control circuit 7. This cannot be influenced by other signals and will only come into operation when it receives the specific start signal. This opens the gate circuit 6, so that the code generator starts. On the sender station (when broadcast) own Encrypted encryption channels via the switch section 21 are fed to the comparator 17. This will generate your own signals (for control purposes)

ίο can be decoded and intercepted, and likewise the start signal will also be fed to the control circuit 7 on the transmitter station, so that start the code generators at the same time on the transmitter and receiver station. The allowable amount of time is significantly greater than the transmission time \ from sender to receiver

The code generator must have pulses of varying length interrupted by breaks yeast, which are also varying length sir *. The pulse series must not be structured according to a specific system, d. i.e. not characterized by regularity or periodicity being. A counting register with so many possible combinations is used to generate the code signals conceivable that repetition of the same code group is avoided.

It should be noted that any signal transmitted using the method described becomes, to any arbitrary order of Morse / .eichen by using varying Code pattern for deciphering, can be remodeled. If you don't use the code pattern knows, it is therefore practically impossible to find the right solution.

1 sheet of drawings

Claims (1)

1 2 This is achieved according to the invention in that Claim: a series of "alternating positive and" regular negative impulses, the following leading impulses Processes for automatic ciphering and nanni are each a fraction of the shortest deciphering of signal pulses of the same or 5 signal pulses or space between unequal length and distribution in the ratio of signal pulses, in an irregular pattern to each other, thereby identifying ac, in a manner known per se by means of a code that a series of regular, alternately positive-controlled inverters are inverted., and that the tive and negative pulses (2b), hereinafter referred to as the resulting series of inverted and non-conductive pulses, each a fraction of i ° inverted conductive pulses on the transmitter side of one of the shortest clear signal pulse (2c) or inverter, which is controlled by a clear signal pulse generator between clear signal pulses, so that the leader creates an irregular pattern in per se known pulses, as long as the inverter receives a signal pulse ter way with the help of a code-controlled in- fed will be inverted, whereupon the verters (5) are inverted, and that the 15 resulting series of lead pulses for keying the resulting series of inverted and non- the transmitter is used, and that the series of inverted lead pulses (2 c) on the Transmitter side and non-inverted pilot pulses to which an inverter (11) is fed, which is fed from the receiver side to a decoder, controlled by a Kiarsignalimpulsgeber (12), according to a corresponding pattern, the received, so that the pilot pulses as long as a clear signal - 20 coded signals to decipher,
pulse is fed to the inverter (11), the invention will be described below with reference to FIG. Series of control pulses (2g) for keying in FIG. 1 shows a block diagram for a system transmitter (14) is used, and that the series for carrying out the method;
inverted and non-inverted leading pulses (2 e) 25 Fig. 2 shows various Si ^ nalkurvenforms;
On the receiver side a decoder (10) for FIG. 3 shows schematically how the start of the code is carried out in order to demean the encrypted signals received according to a corresponding pattern generator in a system according to FIG. 1. to encrypt. In Fig. 1, a stable low frequency gene provides 30 rator 3, controlled by a frequency standard 1, a sine wave la of z. B. 100 Hz, the one Differentiator 4 is supplied, the one Pulse series 2b with alternating positive and negative, very narrow pulses, as well as one The present invention relates to a method 35 series 2c with only positive, very narrow pulses for automatic encryption and decryption supplies. The last-mentioned series of pulses 2c is converted into a code generator 9 in signal pulses of equal and unequal length: i Generation of the code and distribution in relation to one another. character 2 d is used, and the first-mentioned pulse ciphering and deciphering of such signal series 2 b happens one of the code generator pulses is usually for cryptographirxhen 4 ° controlled inverter, so that the pulses only teletype service carried out by inverting the periods , in which the plain text message is fed to the inverter 5 on the sender side with a code signal 2 d. The key material is processed. At the receiver located e ^r imaging pulse train is 2 e catcher page in transmission are then received, encryption of the other inverter 11 th through the switch section 20 signals with a corresponding key 45, respectively. Inverter 11 is controlled by a Morse code for the purpose of recovering the plaintext message, so that inversion is only processed. The encryption and decryption when the key 12 is closed (2 /), and this takes place in that the plain text message or the inverter 11 delivers a pulse-received encrypted signal in this way to a crypto series 2g, which has a key unit 13 for the transmitter 14 Apparat in the form of an electromechanical control 50, with a positive pulse being fed to the key circuit coding device, which closes by, which is not interrupted again before the encryption material arrives in the form of a negative pulse, and the key characters an agreed pattern perforated tape mate - 2 Λ control the transmitter 14, whose output signal 21 rials are controlled, which is fed to the transmitter and the transmitter antenna.
Must run synchronously on the receiving end. These systems 55. Upon receipt, the switch 21 is set so that signal pulses of a certain shape and the same - the code-inverted pulses of the decoding gene-like length, such as. B. Teletype rator 10 are supplied. The signal 21, that of characters, consisting of 5 character units. The purpose of the invention is to provide a method to which it passes the receiver 15 and the sound creation, whereby automatic (on-line) encryption ⁶ ° frequency of z. B. 2 kHz has reproduced, in and deciphering of signal pulses regardless of the filtered and rectified by the detector circuit 16, length and grouping of the signal pulses, and so that the signal has the form 2 /. The impulse without being transformed into signals with a certain series ^,! the shape and length supplied by the first inverter is carried out, is fed to the decoding generator 10, can be carried out. The method can thus be used in the same way as the transmitter probe unit 13 for signal pulses, as acts at and thereby generates a pulse series 2 k , Morse telegraphy, where the length and distribution together with the pulse rate 2 / a comparator the impulses can vary significantly. 17 is supplied to which a resulting output