DEVELOPMENT OF AUDIO-SURVEILLANCE EQUIPMENT AT HOHENSCHOENHAUSEN

Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 -, j Copy ~. . r. =10219911808 L This material contains information affecting the National Defense of the United States within the meaning of the Espionage Laws, Title 18, U.S.C. Secs. 793 and 794, the transmission or revelation of which in any manner to an unauthorized person is prohibited by law. 3ECRET/IIO CRT1 COUNTRY Last Germany DATE OF INFO. Development of t''tudio-Zurveillance Equipment at Iiohenschoenhausen NO. PAGES 7 REQUIREMENT NO. 21 December 1956 PLACE ACQUIRED 1. The Last German Ministry for State security (:linisterium fuer Staatssicherheit TdfJ) utilized the services of prisoners at the prison camp of the SSD in IIohenschocnhausen to design and modify monitoring devices for audio-surveillance. The prisoners engaged in this work were known as the High Frequency Group. 2. tathouf;h some prisoners claimed that Soviets had formerly visited the carp on frequent occasions, none wore observed during the. 1953-1956 period. The rumor that the camp was a "Russian Institute" appeared to be unfounded, oven though 00 percent of the miniature amplifiers produced were allegedly for the Soviets. 3. From June 1953 to iluguot 1956, the following devices of Uc tern origin wore delivered to the HiGh i,'rcquency Group: c. Ten to 20 ,t:?bster wire recorders; d. Several hundred wire recorders these had a plafinf time of one and one r - u wore probably used to monitor telephone conversations; lltransistorizedll pocket receivers (type unknown); Hearing aids ma afa:z cturcd Almost eve of 0 Gorman. SLCR1 T/TNCF013jd 25X1 25X1 aids. Copies of the publication were also received. A 25X1 prisoner was required to explain the purpose of the various articles and devices mentioned in the periodical and, on occasion, to translate the articles into Those devices were delivered in an assembled state. As far as is known, they had not been altered b- the 33D, with the possible exception of the hearing Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 40 iniature Transmitter a. Prior to June 1953, Ernst Krause, formerly of Fuzkwerk Dresden, had completed the development of an ultra short-wave FIJI miniature transmitter with a frequency range of 70 to 80 megacycles and an effective range of 150 to 500 meters. The transmitter had been deveianni at the request of th H h e e ig was in w_ ` ` que j`w' Group arge assembling the devices; all construction components were of Western origin. Two types of transmitters were made: one line- powered which could operate as long as the mechanism was in order, and one battery-powered which could operate for approximately four days. b. The line-powered transmitter had the following major components: 1 high frequency condenser microphone 1 subminiature tube, exact type unknown 1 ultra short-wave coil 1 rectifier 1 line transformer, type 24 42 (former general German designation) The microphone, built by Krause, was probably designed initially tr the Soviets as they had been working on a microphone at the prison at an earlier date. It was approximately the size of an American 25 cent coin and had a frequency range of 100 to 10,000 cycles. The microphone consisted of aluminum foil with a eountereleetrode milled in the following designs The amount of power conoumod 1r the transmitter was so slight that it would not register on in ordinary Watt motor. These transmitters were allegedly to be built into the wall under switohboxes, May were glindri- sal in shape with a diameter of approximately 100 millimeters and a loom of approximately 150 millimeters, The sensitivity was allegedly so great that the tranoiittere could be affixed to the opposite side of the veil of the room to be monitoreds as The battard-powered tram" vmor had the same characteristics and oeostsvetdon elements as the line-powered typo oxqopt that the line transformer and rectifier wore reply e'l IV a leortrix 'anode battery of 30 V and a Psrbris filament of 105 V. Both batteries were of Western origin. The bstteryi. powered transmitters wore installed in cigarette packs, in large fo mtaim ppns, and in pencil cases. Krause in still working on this transmitter. 00 is attempting to ace a 5 V battery and two transistors. In addition to Krause, three mechanios also wort?od on the transmitter. Thos@ voce Prod Wieseke (formerly of Punkwerhh Kadeberg), Horst IteAffe, ~d wern~sr Dahlberg. Guenther aobol, an engineer now at had Olankonbur~, worked on the transmitter at one time and may knew the o ate=drawing for the devise. Dobel also built broadcast r ceivers, using transist? woo and tr emitter/receivera to be attached to a web-bolt. The tranamitt@rfreoeivers were allegedly for use of the infantry in intersom. munioations. Reaeiyin Unite far l Baia t re ~i a niit a a. The prison had We Rhode and tiohwars ..ueivers which were probably used to pick up the miniature transmitter broadcasts, One had a froqusnoy range from ultra short wave to medium wavoi theseoond from Medium to loess were. The receivers were intended for concurrent operation. *be Prior to 1963, the ddD staff had attempted to oanotruct small rescuers - fer the transmitter. Krause had waited on several of thaw bat the dosips SKQET/NOPONN Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 were not satisfactory. Finally, he took parts from a Rhode and Schwarz standard receiver and attempted to miniaturize the design for the 70 to 80 megacycle rage. Krause's technical ability was doubtful and although he designed at least seven types of receivers and produced approximately 10 units of each type, even the seventh modification was unsatisfactory. This was used, however, as no other was available. Practically all necessary types of equipment were available for this research; almost all were of Rhode and Schwarz design. 6. ionitorinrr Devices Evolved from Iiearintr Aid a. The first "transistorized" Beoton hearing aids arrived at the camp in :larch or April 1955. They came in two sizes: large with white cases, and small with blach cases. Both types were equipped with four trazi istbrs. At first, the hearing aids wore modified only by detaching the microphone and inserting a microphone cat lo between the microphone and the amplifier. The hearing aids were then installed directly as monitoring devices. Prior .to 1953, Beoton devices using subminiature tubes instead of transistors had been treated similarly. b. Z me I Device 1) The original transistors in the hearing; aids apparently were not powerful enough for the use intended by the XD. "':ortly after the hearing aids wore received, work began on the designing of an improved monitoring device using other types of transistors. A device was designed from a circuit dia&ram, probably drawn on the basis of the Beoton devices by S3D officers in charge of the group. The prisoners believed that the 33D personnel carefully screened Western publications and used ideas found in them to modify the circuits of the devices. Dy Juno or July 1955, the basic design for the first device was completed. This was referred to as Type I by the prisoners, although this was probably not the type designation assigned by the SSD. The device was a 4-stago transistor amplifier with a dynamic microphone in which the original transistors were replaced by the more powerful models. Dy the end of 1955, seven or eight variations of the design had been carried out in order to improve the device mechanically and electronically. The work was of a trial-and-error nature and inmates of the prison did as little as possible to further the work. 2) In Feb 1 6 lar e auantities O - C 70- 00 71 ~t. trans- istors, re delivery to cat%p. They arrived in their original boxes evA& oontcl-ring 100 transistors. They may have been purchased as the transistors were available there. Last German trans. istors made at Toltow .,l Dr. Falter (fnu) had been tried but they wore too large and not reliable. Russian transistors had also been trxa4 but tests indicated they were not reliable and the voltage requirements (50 V) were too high for use in miniature work. 3) After delivery of the transistors, construction of Type I device was begun. About 150 were produced but not all were completely equipped with transistors and microphones. When now, many of the Type I devices may not be ready for operation because of lack of secondary components. Also, some of the prisoners working on the project have boon released from the camp. 4) Models of the device had been tested. The testing; took place in another department and no details are available. The technical data for Type I are contained in the explanation of the circuit diagram shown in Attachment A. a. ,II (see Attachment B) was developed in a manner similar to that of Type I, from various handwritten circuit diagrams which had to be calculated and refined. The design for Type II was completed by hatch 1956, models were produced and tested, and the prisoners wore put to work constructing the devices. Approximately 150 Typo II devices were con- structed but, like Type I. all may not be finished and ready for operation. DLCRLT/110FOBtI 25X1 25X1 25X1 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246A031900150001-1 14. 9. 8. Erasure of Recording tare One of the tasks at the camp was the construction of a device for rapid erasure of recording wire; this device was doveloped an the basis of a suggestion made ter RTI Nuremberg for erasing magnetic to . The erestwe effected tat fading a ading alternating field. The irductanoe (I1 Or 12) snd capacitance (C) of a tank circuit were selected so that damped osoillatiaes resulted. (See Attachment D). Two coils were arranged one above'the vld ; to form a pocket which held the wire spool. The wire could Ithen be a,- in a few seconds. 9. a. In January 1956, a prisoner was asked to develop a monitoring device trlii0b could record conversation over the noise of a radio. No literature on the subject was offered and the prisoner refused to undertake the prajesU b. A 3-transistor amplifier had been built for insertion into a standard telephone condenser with connections as indicated in Attpahments E tr This unit would operate whoa the telephone was not in uss. gpproodisa~ 15 of the devices were built. . III (see Attachment C) was a 3-stage transistor_am.ifier represented a further development carried out on the bas" CV4VM I- II. An =determined number of OC 65 and OC 66 transistors arrived ad;. prison in April or May 1956, and tr that time the theoreiticat dses~n Type III had been completed. Only one model of Type III had been ado l+pr August 1956. At no time did the SSD personnel make any direct statement concerning the success or failure of the operation of the devices, whether they had been put into operations, or for what purposes they were used, Any of the three typea can be tied into a telephone line to pick up conversations in the room, using the power from the telephone line to operate' the device. 40, telephone line can be tapped at any point along its course and the 3 conversation recorded on the machines. Testing the telephone line ioW detect the tap for monitoring the device but not the tie+-in of the 4isito to the line. ARUM P-55 Ilinifons with 4-hour spools were used as recorders. Flay-back' made in conjunction with a 10 W amplifier and a loudspeaker. A secret project was underway at the camp to develop a method for, remote eontrcd of a Minifon but no details of the project are known. I-anifon recorders had been modified to operate under water when attaeia' to the hulls of ships, The microphone would allegedly be concealed on board, The number of recorders modified for this purpose is wikna m4 One of the prisoners had been asked to produce a miniature recorder buh.F:y when he requostod equipment and supplies for this work he was refused s11d no worl: was accociplirhed. transistors, rectt.fiers, and diodes at VEB Work ,ier Bauelement der Nact:richtentechnik (WAN) Carl von Oesietzky in Berl in-Teltoww. 4. Dr. Mathias Falter was previoue2.y reported as chief of de7,elopment!6 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246A031900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 vawawy .r ^",' -5- Attacbment EXPLAIIATION OF BASIC CIRCUIT DIAGRAM OF 44TAGE TRANSISTOR AIIPLIF ILR WITH DYNAIIIC MICROPHOTIE AND TELEPHOIJ ; LINE (TYPE I) Rev to Diagram 1. Dynamic microphone with alternating current resistance of 200 Ohms and 0.1 millivolt per microbar. 2. Shielded microphone cable (nay be up to 50 meters in length). 3, Amplifying system with four stages. 4. Valvo transistor OC 70. 5. Volvo transistor OC 71. 6. Valvo transistor OC 71. 7. Valve transistor OC 72. S. Telephone line with alternating current resistance of 600 Ohms. 9. Power supply. 10. Connections for recording output of amplifier. Technical Data Frequency range: 150 to 9000 cycles 12 decibels. External voltage interval: 55 decibels. Effective output: +1 neper at 600 Ohms. Noise factors 3 percent. Dimensions of the amplifying devices approximately 100 x 50 x 20 mm, SECHL-71110F0RN Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 EXPLANATION OF BASIC CIRCUIT DIAGRAM OF 4-STAGE TRANSISTOR AMPLIFIER WITH CRYSTAL MICROPHONE AND TLLI! PHONE LINE (TYPE II) to Di"ran 1. C tal microphone with alternating current resistance of 500 2. Shielded microphone cable with maximum length of 10 meters. Amplifying system with four stages. Stages 1 and 2 are the receiver and stages 3 and 4 are the transmitter. The input Impedance is approximately 500 kilo Ohms. The output impedance is approximately 600 Ohms. 4? Valvo transistor OC 70. 5. Valvo transistor OC 70. 60 Valvo transistor OC 71. 7. Volvo transistor OC 72. 8. Telephone line with an alternating current resistance of 600 Ohms. 9. Power supply. 10. Recording device. loc ctn. Data Frequency rango: 150 to 9000 cycles _ 2 decibels. External voltage interval: 50 decibels. Microphone: has a super elevation of approximately 30 decibels at between 1000 and 7000 cycles. Effective output: +1 neper at 600 Ohms. Noise factor: not known. Dimensions of amplifying device: 100 x 50 x 20 mm. " GRE"OFr Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 EXPLANATION OF BASIC CIRJIT DIAM M W 3-STAGE TRANSISTOR ATG?Lfl'IER WITH DUANIC M t0PII0NE #UD T=P1I01NE LINE (TAPE In) Sear to Dias 1. Dynamic microphone with alternating current resistance of 200.1000 Ohms and 0.1 millivolt per microbar. 2. Shielded microphone cable= mwdmum length 100 meters. Amplifier: 'Stages 1 and 3 are the transmitter circuit. is approximately 1 kilo Ohm. Valvo transistor OC 65. The input impedaaoe 5. Valvo transistor OC 66. 6. Volvo transistor OC 66. 7. Telephone line with alternating current resistance at 600 Cbms. 8. Power supply. 9. Recording device. Frequency range: 150 to 8000 cycles _ 2 decibels. Effective outputs 0 nepers at 600 Ohms. Noise factor: not known. rxternal voltage interval: not known. Dimensions: 60 x 40 x 20 mm. 25X1 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 E LI 0 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 0 H Paa Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 FAQ ELI r ^ 11 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80TOO246AO31900150001-1 0 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 W. Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 ^  Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1 I` -mind uia IF] ?? f or a L,-;-! with r~ UTIMM !lff_! I W3 dMin Opi'll I gin a L 1 Sanitized Copy Approved for Release 2010/03/29: CIA-RDP80T00246AO31900150001-1