MD–90 Series Precision Quartz Clock Manufactured by Mid-Continent Instruments and Avionics

Total Page：16

File Type：pdf, Size：1020Kb

MD–90 Series Precision Quartz Clock Manufactured by Mid-Continent Instruments and Avionics PRECISION QUARTZ CLOCK PRECISION QUARTZ THE MD – 90 SERIES IS DESIGNED FOR ACCURACY AND IS TRUSTED BY MANY AIRCRAFT MANUFACTURERS MD–90 AND OWNERS. Accurate time-keeping is important to an instrument pilot, Precision quartz movement and it is a requirement that a timepiece with a sweep second Compact 2-inch size — fits standard panel cutout pointer be on board the airplane. The MD–90 Series Precision Lighted version available with field-replaceable light tray Quartz Clock is the ideal solution. Transient and reverse polarity protected The 2-inch MD–90 Series features extremely low current Original equipment for many major aircraft manufacturers draw, transient and reverse polarity protection. Each clock is Low power consumption (3 mA) manufactured to meet rugged aircraft environmental standards. Continuously powered by aircraft battery With a high-quality, solid-state quartz movement and a variety of lighting options, a 12-hour analog clock is an essential FAA PMA certified part of any instrument panel. Designed and built in Wichita, Kansas, USA One-year limited warranty Kansas 9400 East 34th Street North Wichita, Kansas 67226 USA Tel 316.630.0101 Tel 800.821.1212 Fax 316.630.0723 E-mail [email protected] California 16320 Stagg Street Van Nuys, California 91406 USA Tel 818.786.0300 Tel 800.345.7599 Fax 818.786.2734 E-mail [email protected] mcico.com MD–90 Series Precision Quartz Clocks Manufactured by Mid-Continent Instruments and Avionics SPECIFICATIONS Power Input 8–32 VDC 3 mA max (without lighting) Accuracy ±30 seconds in 24 hrs Dimensions 2.5 x 2.5 x 3.2 inches max Weight 0.5 lbs Temperature –40°C to +82°C (–40°F to +180°F) Altitude –1,000 to +55,000 ft Humidity 0 to 95% at 25°C Vibration 02 in. dbl. ampl., 1.5g @ 5 to 50 Hz Certification FAA PMA Mounting Front or rear-panel mounted Connector #6–32 threaded terminals PART NUMBER CONFIGURATION MD–90–1 8–32 VDC MD–90L 8–32 VDC, Lighted Kansas 9400 East 34th Street North Wichita, Kansas 67226 USA Tel 316.630.0101 Tel 800.821.1212 Fax 316.630.0723 E-mail [email protected] California 16320 Stagg Street Van Nuys, California 91406 USA Tel 818.786.0300 Tel 800.345.7599 Fax 818.786.2734 E-mail [email protected] mcico.com 0313-12P.

Copy Link

Recommended publications

Measurement of Time
Measurement of Time M.Y. ANAND, B.A. KAGALI* Department of Physics, Bangalore University, Bangalore 560056 *email: [email protected] ABSTRACT Time was historically measured using the periodic motions of the sun and stars. Various types of sun clocks were devised in Egypt, Greece and Europe. Different types of water clocks were assembled with ever greater accuracy. Only in the seventeenth century did the mechanical clock with pendulums and springs appeared. Accurate quartz clocks and atomic clocks were developed in the first half of the twentieth century. Now we have clocks that have better than microsecond accuracy. This article gives a brief account of all these topics. Keywords: Sun clocks, Water clocks, Mechanical clocks, Quartz clocks, Atomic clocks, World Time, Indian Standard time We all know intuitively what time is. It can be civilizations relied upon the apparent motion of roughly equated with change or motions. From these bodies through the sky to determine the very beginning man has been interested in seasons, months, and years. understanding and measuring time. More We know little about the details of recently, he has been looking for ways to limit timekeeping in prehistoric eras, but we find the “damaging” effects of time and going that in every culture, some people were backward in time! preoccupied with measuring and recording the Celestial bodies—the Sun, Moon, planets, passage of time. Ice-age hunters in Europe over and stars—have provided us a reference for 20,000 years ago scratched lines and gouged measuring the passage of time. Ancient holes in sticks and bones, possibly counting the Physics Education • January − March 2007 277 days between phases of the moon.
[Show full text]
Mini Quartz Clock Movements
Mini Quartz Clock Movements • 10 Year Warranty • Step Second Hand • Dimensions: 2-1/8"W x 2-1/8"H x 5/8"D • Runs on 1 "AA" Size Battery • American "I" Shaft - Diameter 5/16" • Free Set Of Hands and • Front Loading Hanger Mounting Hardware With • Accurate Within 2 Minutes A Year Each Clock Movement • Fits 3" Diameter Hole • Made in USA 1. Drill a 3/8" hole through the material you are working with and insert the movement. 2. Slide brass washer over shaft. 3. Attach dial mounting hex nut. 4. Gently press hour hand onto shaft at 12:00 position. 5. Place minute hand over shaft at 12:00 position. 6. Gently screw minute nut in place. 7. Press on second hand at 12:00 position. 8. Screw on cap nut if no second hand is used. Mini Movements Shaft Length Selecting the Proper Shaft Length Dials B A P r i c e E a c h P e r P k g O f Proper shaft length is important to ensure Stock# up to Thread Total 1 3 10 50 100 sufficient clearance when going through your dial Q-11 1/8" thick 3/16" 17/32" 4.95 4.23 4.45 3.80 4.25 3.63 3.95 3.38 3.75 3.21 board and when using a glass front on your clock. Q-12 1/4" thick 5/16" 5/8" 4.95 4.23 4.45 3.80 4.25 3.63 3.95 3.38 3.75 3.21 Overall Length (A) is measured from the tip of Q-13 3/8" thick 7/16" 3/4" 4.95 4.See23 4.4 website5 3.80 4.25 3for.63 3current.95 3.38 3.75 3.21 the hand shaft to the movement cast.
[Show full text]
Analog Clock Headway Movement FAQS
ANALOG CLOCK HEADWAY MOVEMENT FAQS The links below will work in most PDF viewers and link to the topic area by clicking the link. We recommend Adobe Reader version 10 or greater available at: http://get.adobe.com/reader CONTENTS Analog Clock Headway Movement FAQS .................................................................... 1 Batteries ............................................................................................................................. 2 Atomic Clock Factory Restart ...................................................................................... 2 Supported Time Zones .................................................................................................. 2 Time is Incorrect ............................................................................................................. 2 Clock is incorrect by Hours but minutes are correct .......................................... 3 Daylight Saving Time ..................................................................................................... 3 Manually Set Time ........................................................................................................... 3 How long will the battery last? .................................................................................. 3 Can I shut off the WWVB signal? .............................................................................. 3 Is there a booster antenna to receive the WWVB signal in a difficult location? ............................................................................................................................
[Show full text]
77A71 Quartz Clock Movement Instructions
77A71 07/28/94 Quartz Clock Movement Instructions Product #3722X, 3723X The 3622X and 3723X quartz battery movements will operate The 3723X movement has a start-stop switch on the rear of the approximately 12 months on a fresh “C” alkaline battery. Insert the case. Both movements feature a hand set knob on the rear of the battery with positive end to your left as movement is held upright case. Telephone time recordings are generally adequate for setting looking from the rear. the time. The 3722X and 3723X movements should keep time to +/- To mount the movement, insert the handshaft through the center 10 seconds per month. hole in your dial and fasten with the brass nut and brass washer. Be sure to use a fresh battery when you install your clock. If you are The hanger and one or more shims (rubber washer) may be neces- not sure, have it tested on a battery testing device. Do not attempt sary between the movement and the dial to control the distance that to disassemble the movement case for any kind of service. the handshaft protrudes through the dial. (See Diagram A) The adjustable pendulum on the 3722X adjustable pendulum Press the hour hand onto its shaft, making sure it does not rub movement has no bearing on the time keeping of the movement against the dial. The minute hand fits onto the threaded “I” shaft itself and can be adjusted by “breaking” the brass rod at the scored and is held by a small nut. The second hand (optional) may now be lines and then replacing the brass bob.
[Show full text]
From Sundials to Atomic Clocks
2 I. THE RIDDLE OF TIME 1. The Riddle of Time 3 The Nature of Time 4 What Is Time? 5 Date, Time Interval, and Synchronization 6 Ancient Clock Watchers 7 Clocks in Nature 9 Keeping Track of the Sun and Moon 10 Thinking Big and Thinking Small-An Aside on Numbers 12 2. Everything Swings 15 Getting Time from Frequency 17 What Is a Clock? 19 The Earth-Sun Clock 20 Meter Sticks to Measure Time 22 What Is a Standard? 23 How Time Tells Us Where in the World We Are 24 Building a Clock that Wouldn’t Get Seasick 26 3 P Chapter C m234567 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 It’s present everywhere, but occupies no space. We can measure it, but we can’t see it, touch it, get rid of it, or put it in a container. Everyone knows what it is and uses it every day, but no one has been able to define it. We can spend it, save it, waste it, or kill it, but we can’t destroy it or even change it, and there’s never any more or less of it. F “SE WE USE IT EVERY DAY! BUT WHAT 4 All of these statements apply to time. Is it any wonder that scientists like Newton, Descartes, and Einstein spent years studying, thinking about, arguing over, and trying to define time-and still were not satisfied with their answers? Today’s scientists have done no better.
[Show full text]
SAI Series Stand Alone Quartz Clock Description Highlights
sap_catalog_interior 2/15/05 11:57 AM Page 19 Analog Clocks SAI Series Stand Alone Quartz Clock Description The SAI Quartz Series clocks are the ideal solution for an affordable and chic analog clock. This series has a vast selection of dials and hands for a stylish, contemporary look. Dials range from our standard 12 or 24 hour version to sleek new designs that we have developed. We provide multiple options for hour and minute hand selections, from standard hands to unique and different styles of hands that give the clocks a certain panache. Our cases come in a wide variety of custom colors from green to orange, as well as our standard black and white. Another option that we offer is plastic cases and crystals, for a more cost–effective alternative. SAI clocks are available in a double mount housing which has a variety of different lengths Highlights and colors. The SAI Series clocks have a low profile, smooth surface metal case, or a smooth surface ABS case. This clock series is available in both 12" and 16” Proven time–keeping accuracy and round cases. This SAI Series comes with a shatterproof polycarbonate crystal, or reliability an optional polystyrene crystal in both size models. The SAI clocks work on a single Hour, minute and second hands “AA” battery making it efficient and inexpensive to maintain. This line of clocks is Custom colors and plating available also compact, energy efficient and reliable. Sapling quartz analog clocks are the Complete stand–alone capability perfect choice for design and versatility. Works on a single "AA" battery Available in 12" or 16" round case Low profile—slim case design Smooth surface metal case (optional ABS plastic cases are available) A plethora of hand and dial designs Variety of lengths and colors for double mount Shatterproof, side molded polycarbonate crystal (optional polystyrene plastic crystals are available) Made in U.S.A.
[Show full text]
I-Shaft Clock Hands
Table of Contents Pages The ClockParts.com Quartz Motors. 1-10 High Torque Motors. 6-8 Product Catalog High Torque Hands. 9 Daylight Savings Motors. .10 Volume 42 Pendulum Motors. 11 Pendulums. 13 I-Shaft Movement Mounting Instructions Chiming Motors. 14-16 Specialty Motors. 17-18 Tide Motors/Thermometers. 19 Clock Hands. 21-24 Sweep Second Hands. 24 Clock Hardware & Accessories. 25-27 Clock Inserts. 28-39 Tide Inserts. 39 Weather Inserts. 40 Square Clock Dials. 41 Round Clock Dials. 42 Bezel/Crystal/Dial Combinations. 43 “Turn Back the Clock” Antique Dial Series. 44-45 Do It Yourself Clock Software. 46 Wall Clock Kits & Do It Yourself Series. .46 CD Clock Kits & Adhesive Number Sets. 47 Photo Frame & Giant Wall Clock Kit. 48 Please Note Our NEW ADDRESS: 5306 Beethoven St., Los Angeles, CA 90066 General Information How to Order: Order online at www.ClockParts.com, call in your Shortages: Please inspect your orders upon receipt. Any shortages order at 888-8CRAFTS (872-2387), Fax in your order at 310-482- must be reported to ISI within 10 days of receipt of goods. 3480 or mail your order to Clockparts.com, 5306 Beethoven St., Los Pricing: In the past year the costs of material such as plastic, brass, Angeles, CA 90066. ISI’s hours are 8:00 am to 4:00 pm PST Monday aluminum and zinc have risen so quickly that we cannot guarantee the through Friday. After hours and on weekends you can leave your order prices in this catalog. We will do everything we can to maintain prices.
[Show full text]
American Time Radio Controlled/Quartz Clock
American Time Radio Controlled/Quartz Clock OPERATING INSTRUCTIONS: Step 1: Verify hands are exactly at the 12:00 position. If hands have moved during shipping see “Positioning Hands”. Step 2: Move the slide switch on the movement to match your local time zone. A. P – Pacific Time B. M – Mountain Time C. C – Central Time D. E – Eastern Time Step 3: Remove the red pin. Step 4: Insert a fresh “AA” alkaline battery. That’s it! Clock will automatically reset to the correct time, if signal is available in your area. IMPORTANT: Read all instructions before running any clocks!! ABOUT YOUR RADIO CONTROLLED CLOCK: Your radio controlled clock movement is equipped with circuitry and a receiver to pick up a (60 kHz) time signal (WWVB) transmitted by the National Institute of Standards and Technology (NIST) from Fort Collins, Colorado. The time signal is based on a Cesium clock, one of the most accurate timekeeping devices in the world. Your clock will automatically compare the time signal received to the time on the clock. Once your clock sets itself it will continue to automatically synchronize every day (8X). At startup the sweep will fast run one minute and the hour and minute advance 12 hours and stop at 12:00. After the hands stop the clock will try to receive the time signal (3 – 15 minutes) and if the time signal is received the clock will set (4 minutes). If no signal is received after 15 minutes the clock will start running from the 12:00 position and continue to check for the signal an hour later.
[Show full text]
Time Keeping with Quartz Crystals
TIME KEEPING WITH QUARTZ CRYSTALS “The only reason for time is so that everything doesn't happen at once” said Albert Einstein (Fig. 1). One can only assume he wasn’t talking about synchronised global networks when he made this comment. Figure 1 Time is more important than oscillator frequency if events must happen synchronously. The frequency and accuracy of the oscillators generating the ‘timing’ is not critical so long as they all know exactly what time it is. If, on the other hand, the oscillator generating the timing cannot synchronise itself to a reference timing source then the accuracy of the oscillators frequency generating the time is now vitally important. The internationally recognised time standard is UTC (Coordinated Universal Time) and is maintained by the National Institute of Standards and Technology, a branch of the United States Department of Commerce. In Telecoms infrastructure the various levels of required timing accuracies are defined as Stratum levels 1 to 4. The most accurate, and hence the Primary Reference Source is Stratum 1, an atomic clock (usually a Caesium Beam or Hydrogen Maser) which maintains its frequency to an accuracy of <1x10-11 for life. The next level, Stratum 2, maintains its frequency to an accuracy of <1x10-10 per day with Stratum 3 maintaining its frequency to an accuracy of <3.7x10-7 per day. Stratum level 2 is implemented with a precision OCXO (Oven Controlled Crystal Oscillator) using a SC cut crystal. Stratum level 3 is implemented with a precision TCXO (Temperature Compensated Crystal Oscillator) using an AT cut crystal.
[Show full text]
Allset® Series Electric Clocks Metal Case
AllSet® Series Electric Clocks Metal Case FEATURES • 3 Year Warranty • Automatically adjusts for Daylight Saving Time changes • No signals or antennas required • 120vac • Heavy-duty all metal bezel • Durable powder coat finish GENERAL The American Time® AllSet electric clocks, with automatic DST feature, are ideal for schools, hospitals, and state and federal buildings. Clock bezel is constructed of durable, 21 gauge cold rolled steel, manufactured to specific high quality standards, with a durable powder coat finish. Glass crystal is highly resistant to scratches. Shatter-resistant plexiglass crystals are also available (standard on 15" clocks). Customization of dials is available. The hour and minute hands are black aluminum. Sweep second hand is red aluminum. DESCRIPTION The AllSet quartz clock movement features a microchip with an internal alkaline battery that keeps track of the current date and time. The microchip is programmed to make the daylight saving time changes at 03:00 a.m. Eastern, 02:00 a.m. Central, 01:00 a.m. Mountain and 12:00 a.m. Pacific time twice a year. In the fall, the movement will stop moving the hands for one hour and start ticking again when the clock is on time to adjust from daylight saving time to standard time. In the spring, the movement will advance the hands forward one hour, at an accelerated speed, to achieve the correct daylight saving time. Clocks use a quartz-based electric movement which operates from 120vac for years of maintenance-free operation. Note: Time must be manually set at startup and after power outages. Internal time/date is only used for moving hands for DST changes.
[Show full text]
Quartz Clocks of the Greenwich Time Service
QUARTZ CLOCKS OF THE GREENWICH TIME SERVICE Humphry M. Smith (Communicated by the Astronomer Royal) (Received 1952 November 13) 1953MNRAS.113...67S Summary A general account is given of the development of the quartz clocks of the Greenwich Time Service, and the present installation is described. The methods by which clock performance may be studied are described and a convenient criterion is proposed. Quantitative results are presented in tabular form. The degree of stability now attained represents a significant advance upon that of some five years ago. Details are given of development work now in progress with a view to improving stability still further. 1. General description.-The first quartz clock of the Observatory was installed at Greenwich in 1939, and was of the pattern developed at the National Physical Laboratory ( I) . This employed a ring crystal supported. on phosphor-bronze pins and mounted in an evacuated glass vessel held at a constant temperature by means of a mercury thermometer. The crystal was· incorporated in a simple Pierce oscillator circuit, and was designed to .oscillate at 99'3 kc/s. The divider chain performed successive division by 3, 6 and II, giving an output of 500 cycles per sidereal second to drive a phonic motor. This clock, Q3, took its place among the standard pendulum clocks of the Time Service, which were also supplemented by data received daily from the National Physical Laboratory regarding two similar quartz clocks Q2 and Q6. Clocks employing G T-cut plate crystals in a drive circuit based upon the Meacham bridge (2) were developed independently at the Post Office Radio Branch Laboratories.
[Show full text]
Atomic Time-Keeping from 1955 to the Present
INSTITUTE OF PHYSICS PUBLISHING METROLOGIA Metrologia 42 (2005) S20–S30 doi:10.1088/0026-1394/42/3/S04 Atomic time-keeping from 1955 to the present Bernard Guinot1 and Elisa Felicitas Arias1,2 1 Observatoire de Paris—Associated astronomers, 61, Av. de l’Observatoire, 75014 Paris, France 2 Bureau International des Poids et Mesures (BIPM), Pavillon de Breteuil, 92310 Sevres,` France E-mail: [email protected] and [email protected] Received 4 February 2005 Published 7 June 2005 Online at stacks.iop.org/Met/42/S20 Abstract This paper summarizes the creation and technical evolution of atomic time scales, recalling the parallel development of their acceptance and the remaining problems. We consider a consequence of the accuracy of time measurement, i.e. the entry of Einstein’s general relativity into metrology and its applications. We give some details about the method of calculation and the characteristics of International Atomic Time, and we show how it is disseminated at the ultimate level of precision. 1. Introduction The goal of astronomers was to produce a time scale for worldwide use which was the best possible representation After the construction of the ﬁrst operational caesium of absolute Newtonian time. The lack of uniformity of the frequency standard at the National Physical Laboratory (UK) realized time is characterized by an estimation of relative in 1955, it was quickly recognized that the selected transition variations of rate, denoted by u, over speciﬁed intervals. was the best choice and could serve as a reference for Another important characteristic is the smallest uncertainty frequencies, as the angstrom had served for wavelength in ε in assigning a date to an event.
[Show full text]