• Design and Performance of a New S-Band Transmitter

      Swartley, Richard H.; Eitel-McCullough, Inc. (International Foundation for Telemetering, 1965-05)
      This paper describes a telemetry transmitter designed for the 2.2-2.3 Gc band. Design philosophy followed to achieve minimum size, wide deviation capability, high reliability and high efficiency are discussed in detail. The paper presents extensive measured data to indicate achievement of design goals set by IRIG 106-60 and ARTC-34. Construction details of the transmitter are illustrated.
    • Design Considerations in Pre-D Receiving and Recording Equipment

      Swanson, E. E.; Defense Electronics, Inc. (International Foundation for Telemetering, 1965-05)
      Design factors to be considered in wide band Pre-D recording and playback equipment for usage in a versatile Pre-D system are presented. These design factors are introduced in a discussion of both the down-translator and up-translator. The mechanisms which produce spurious outputs from the up-translator and the effects caused by these spurious outputs are treated in detail. The extension of Pre-D techniques to FM Electronics equipment is covered.
    • A Dual Polarized, High-Power Synthetic Conical Scan Tracking System

      Chadwick, George G.; Homola, James A.; Hansen, Marvin E.; Radiation Systems, Inc. (International Foundation for Telemetering, 1965-05)
      The dual polarized high-power synthetic conical scan tracking system was designed for operation over the frequency range from 1700 to 2400 mc. This feed was developed for an existing 33' parabolic reflector which is presently located at the Floyd Test Site in Rome, New York. The feed network is located at the focal point of a parabolic dish and is fabricated in WR-430 waveguide. The system provides a horizontally polarized on-axis beam for transmission. It also provides two conically scanning receiving beams at a frequency different from the transmit frequency. One of the receiving beams is vertically polarized; the other is designed to receive the orthogonal horizontal polarization. The conical scan is synthetically generated and individual channel control is provided to allow the two receiving beams to be aligned. The feed system may be converted to provide monopulse outputs by simply removing the synthetic conical scanning mechanism.
    • Envelope Delay in a Tape Recorder System

      Starr, Jack; Ampex Corporation (International Foundation for Telemetering, 1965-05)
    • Evaluation of an Expanded FM/FM Baseband Structure

      Campbell, E. B.; Herbert, W. R.; Electro-Mechanical Research, Inc. (International Foundation for Telemetering, 1965-05)
      An experimental evaluation program was undertaken to investigate the feasibility of expanding the IRIG (Inter-Range Instrumentation Group) FM/FM baseband. The results of the evaluation indicate that with typical field equipment, three higher-frequency proportional-bandwidth channels can be added to the baseband while maintaining adequate system performance.
    • F. M. Capture Performance - Characterization and Measurement

      Baghdady, Elie J.; Gutwein, Joseph M.; ADCOM, Inc. (International Foundation for Telemetering, 1965-05)
      The effects of interference and capture in FM reception are reviewed for the purpose of determining the basis for characterizing and measuring the capture performance of FM receivers. Capture performance criteria and performance measurement techniques are proposed for application to FM telemetry receiver evaluation.
    • Five Basic Methods for the Generation of Binary Cyclic Codes

      Brothman, A.; Brothman, E. H.; Halpern, S. J.; Horowitz, L. M.; Miller, A. H. (International Foundation for Telemetering, 1965-05)
    • Flexible Communication System for Saturn

      Bruni, Donald J.; Davis, Donald G.; Dynaplex Corporation; N.A.S.A. (International Foundation for Telemetering, 1965-05)
    • Flutter and Time Errors in Magnetic Data Recorders

      Chao, S. C.; Ampex Corporation (International Foundation for Telemetering, 1965-05)
      Flutter and time errors are critical factors in all instrumentation recording. They become even more so in many current and future applications, especially in the data recovery and reduction processes of various telemetering systems. This paper presents analytically the relationship between flutter, time base error, and time base error difference (sometimes called jitter), plus the effects of these errors on direct and FM recording. Methods of measuring these quantities are discussed and experimental examples are given. Spectral and probability density analyses and measurements have indicated that these variables are basically random in nature, and as such, they should be specified in terms of a levels, rather than in conventional peak-to-peak figures. Finally, a measurement method for the typical values of interchannel time error is presented, and some trends of correlation among all channels are discussed.
    • Frequency Modulation Error Calculation

      Nyre, Donald L.; Douglas Aircraft Company (International Foundation for Telemetering, 1965-05)
      In a frequency modulation process, small amplitude sidebands near the deviation limits are sometimes distorted or lost. The problems and expense of preserving these lessor sidebands are often great, and spectrum space must be reserved for them. To date there appears to have been no clear statement of their importance in terms of data accuracy. This paper presents a numerical calculation of the errors accrued in a demodulated signal after truncation of the FM spectrum obtained with sinusoidal modulation. It is shown that the error increases for decreasing bandwidth. Error is evaluated for several bandwidths, and relationships to power outside the band are noted. Applications include specification of bandwidth for a given error in demodulated signal. The use of a limiter is assumed.
    • Frequency Spectrum of an FM/FM Signal

      Holt, J. C.; Douglas Aircraft Company (International Foundation for Telemetering, 1965-05)
      Several authors have attempted to derive a mathematical model that will describe the frequency spectrum of a FM/FM signal. However, to this author's knowledge, none of the mathematical models that have been published is valid when the carrier is modulated by more than one subcarrier. In this paper an expression for a FM/FM signal is derived that is valid when IRIG specifications are applied. Then this expression is manipulated into a form that will yield the frequency spectrum when the carrier is modulated by any number of subcarriers. Then an illustration of a two subcarrier frequency spectrum is presented.
    • High "G" UHF Telemetry for Gun-Launched Sounding Probes

      Cruickshank, William J.; Ballistic Research Laboratories (International Foundation for Telemetering, 1965-05)
      The development of a UHF telemetry system that will withstand the high shock (50,000 g) of gun launched vertical sounding probes is described. The associated development of a ground based automatic angle and range tracking and receiving system using a modified AN/GMD-1A Rawin set is also presented.
    • High Data Capacity/High Environment Recorder

      Thompson, R. S.; Head, L. E.; Consolidated Electro-Dynamics Corporation (International Foundation for Telemetering, 1965-05)
      This paper describes an airborne digital magnetic tape recorder developed for use in high performance military aircraft. The main design efforts required to obtain a high data capacity under extreme environmental conditions while using a minimum of space are discussed, along with the results of the major environmental qualification tests.
    • International Telemetering Conference Proceedings, Volume 01 (1965)

      International Foundation for Telemetering, 1965-05
    • A Low Level Commutator with Field Effect Transistor Signal Gates

      Ely, William B.; General Devices, Inc. (International Foundation for Telemetering, 1965-05)
      A low level differential input commutator is described which uses field effect transistors for the signal gates. The commutator was built for airborne applications so that size, weight, and reliability were major considerations as well as electrical performance. Results are compared with commutators using other types of signal gates.
    • Matched Filter Systems in Rising Noise Spectrums

      Halpern, P.; Electro-Mechanical Research (International Foundation for Telemetering, 1965-05)
      It is common knowledge that the matched filters for signals in white noise have impulse responses whose time duration is exactly as long as that of the input signal. Nothing can be gained by extending the response of the matched filters to longer than one bit unless (1) the signal source is coded, or (2) the noise spectrum is rising or at least is other than white-Gaussian-ergodic. This paper discusses means of improving bit error rates without coding the source. There are essentially two ways of extending the integration time of the matched filters, each of which offers an improvement in signal-to-noise ratio. The first way is to extend the response directly to more than one bit but constrain the filter to give zero or some small pre-assigned intersymbol crosstalk. The second way is to build matched filters for multiple bits. Both techniques can be used simultaneously; i.e., matched filters can be constructed for bit patterns, and the responses can be extended to longer than the baud to which the filters are matched. Once again this extension is done under the constrain of zero or little crosstalk. In this paper, the matched filters for several examples are expanded in a rapidly converging series, each term of which is identifiable with a known network. For the cases where the shape of the noise is not known analytically, an experimental technique is given for determining sufficient statistics of the noise so that the optimum matched filters can be designed.
    • A Meteor Burst Telemetry System for a Nuclear Lunar Power Plant

      Swisher, B. F.; Johnson, R. E.; Boeing Company (International Foundation for Telemetering, 1965-05)
      The meteor burst telemetry system to be described was conceived, designed, and developed as an Engineering Model. The telemetry system will be used to telemeter oceanographic data from an experimental instrumented ocean buoy to be moored at continental shelf depths on Cobb Seamount to shore facilities at Seattle, Washington. Cobb Seamount is located in the Pacific Ocean approximately 300 miles off the coast of the State of Washington. A general description of the telemetry system and its operational characteristics, which are dictated by the statistical characteristics of the meteor burst mode of propagation, is presented. This is followed by a more detailed description of equipment elements of the system. The developmental status, the results of a propagation path field test, and plans for additional tests are discussed. Development results to date are sufficiently encouraging to generate confidence in the utility of a meteor burst telemetry system for oceanographic data acquisition.
    • Meteorological Rocket Telemetry in the 1680 Megacycle Band

      Drews, William A.; Walton, W. T.; Atlantic Research Corporation (International Foundation for Telemetering, 1965-05)
      A summary of the present state of design and a review of hardware currently in use and under development for meteorological rocket payloads is given. Important design parameters are discussed and the constraints imposed by existing ground support equipment are described.
    • A Microwave Telemetry Automatic Tracking Antenna

      Bejarano, Eduardo; White Sands Missile Range (International Foundation for Telemetering, 1965-05)
    • Miniature Telemetry Transmitter

      Wiley, J. R.; Busch, W.; Langan, L.; M.C.D. General Electric Company (International Foundation for Telemetering, 1965-05)
      The increased use of L and S-Band for telemetry services in conjunction with the need for miniaturized equipment, points up the desirability for compact transmitter units. This report describes a miniature S-Band transmitter and its associated power supply. The design goals are presented together with a discussion of the technical approach used to meet the severe requirements. Illustrations and performance data are included for completeness.