The GRAETZ BURGGRAF COLOR 2749B is a 26 inches color television with 8 programs and potentiometers tuning search system and ultrasonic remote control.
The analog values of volume, bright, color and the turning on and off are made via touch sensors on the front back a lid to the frontend commands. (or via ultrasonic remote, the UFB 3) includes a plurality of tuning positions each defined by an adjustable potentiometer !
It has even sensor keyboard for local commands, includes a plurality of tuning positions each defined by an adjustable potentiometer, a neon bulb indicator, a UHF/VHF switch and a two pole momentary contact touch switch. A common tuning capacitor has a tuning voltage developed thereacross for controlling the tuning of a varactor diode tuner. A source of reference potential is coupled across the tuning potentiometers and closure of any touch switch results in the tuning capacitor being charged from the voltage reference source through the selected one of the tuning potentiometers. The neon bulbs yield a visual indication of the selected tuning position. Circuitry for automatically placing control of the tuner to a preselected one of the tuning positions upon turn on of the receiver is also included.
TV TOUCH-TUNING IC: With the developmente of application covering the use of m.o.s. devices for television and radio channel selection and indication a device relates to a specially developed m.o.s.-technology integrated circuit which is already produced in development quantities. The touch -tuner as the i.c. is designated ans was intended to replace mechanical push-button TV tuner mechanisms. It provides a sensing system which operates in conjunction with a finger -touch plate, a switching arrangement to control a varicap tuner and in addition outputs to operate channel indicating neon lamps. The sensing system comprises a very high -impedance circuit which is effectively shorted out by the resistance of a finger placed across the external touch plate. One side of the touch plate is connected to the sensing input of the i.c. and the other to a positive voltage which may be d.c. or a.c. When the touch plate is operated the channels are stepped through in sequence: the selected channel latches on and the appropriate indicator lights. The i.c. operates from a standard 33V varicap tuner supply and enables up to eight channels to be selected. Remote control can be applied to the system if required and the set is provided for that. Touch -sensitive control units form a welcome and natural adjunct to the use of varicap tuner units. As they dispense completely with the need for electrical switches and switch contacts they should reduce further the number of service calls for tuning faults. Various circuit arrangements are used in touch operated tuner control units but all operate when a finger tip bridges a pair of contacts which incidentally look at first glance like a single contact. When the finger tip completes the circuit forward bias is applied to a high gain switching transistor. This in turn switches on another transistor or transistors and the net outcome is that the supply to the appropriate tuning potentiometer is connected and held on while the supply to the previously selected potentiometer is switched off. In addition a channel ident fication bulb is usually brought into circuit. As skin resistance is high the touch contacts must be incorporated in a correspondingly high resistance circuit; in practice resistor values in the range 10-22MegaOhm are used. The switching operations are carried out either by discrete transistors or i.c.s. Transistors form almost ideal switches of course.
It's a Circuit arrangement for establishing a reference potential of a chassis of an electrical device such as a radio and/or TV receiver, such device being provided with at least one contactless touching switch operating under the AC voltage principle. The device is switched by touching a unipole touching field in a contactless manner so as to establish connection to a grounded network pole. The circuit arrangement includes in combination an electronic blocking switch and a unidirectional rectifier which separates such switch from the network during the blocking phase.In electronic devices, for example TV and radio receivers, there are used in ever increasing numbers electronic touching switches for switching and adjusting the functions of the device. In one known embodiment of this type of touching switch, which operates on a DC voltage principle, the function of the electronic device, is contactlessly switched by touching a unipole touching field, the switching being carried out by means of an alternating current voltage.
In these tuning units, the working voltages of the capacity diodes in the tuning circuits are recorded once a precise tuning to the desired frequency has been performed. A potentiometer tuning system has great advantages over the formerly used channel selectors operating with mechanically adjustable capacitors (tuning condensers) or mechanically adjustable inductances (variometers), mainly because it is not required to have such great precision in its tuning mechanism. The resistances serving as voltage dividers in these tuning units are combined into a component unit such that they are in the form of a ladderlike pattern on a common insulating plate forming the cover of the housing in which the tuning spindles and wiper contacts corresponding to the variable resistances are housed. The number of resistances corresponds to the number of channels or frequencies which are to be recorded. The wiper contact picks up a voltage which, when applied to the capacity diodes determines their capacitance and hence the frequency of the corresponding oscillating circuit. The adjustment of the wipers is performed by turning the tuning spindle coupled to the tuning knob.
ITT Semiconductors have announced additions to their range of i.c.s for television receivers, mainly for use in the front end. First the company is offering an i.c. set for controlling TV tuners. It consists of two MOS i.c.s which provide all the data required for tuner control, such as tuning voltage, switching voltage for band selection (where applicable) and the a.f.c. signal. The set comprises the storage i.c. type SAA1020, which functions as a static shift register and has an extremely low current consumption, and the control i.c. type SAA1021, which performs the data processing duties. The low current consumption of the SAA1020 enables the channel data to remain stored for almost a year, even when the TV is switched off. Power is provided by a small 1.5V battery. This i.c. set also facilitates electronic station searching, with silent tuning. This method of station selection obviates the need for any mechnical tuning/storage devices (such as tuning potentio- meters). Also new is a 30 -channel ultrasonic transmitter/receiver combination, the SAA1024 and SAA1025. An altern- ative receiver circuit, the SAA1130, offers programme store as an additional facility. The latter can be used to drive the new SAA1008 character generator which enables the selected channel to be displayed on the screen.
Was first GRAETZ model designed around 20AX SYSTEM CRT TUBE.The analog values of volume, bright, color and the turning on and off are made via touch sensors on the front back a lid to the frontend commands. (or via ultrasonic remote, the UFB 3) includes a plurality of tuning positions each defined by an adjustable potentiometer !
It has even sensor keyboard for local commands, includes a plurality of tuning positions each defined by an adjustable potentiometer, a neon bulb indicator, a UHF/VHF switch and a two pole momentary contact touch switch. A common tuning capacitor has a tuning voltage developed thereacross for controlling the tuning of a varactor diode tuner. A source of reference potential is coupled across the tuning potentiometers and closure of any touch switch results in the tuning capacitor being charged from the voltage reference source through the selected one of the tuning potentiometers. The neon bulbs yield a visual indication of the selected tuning position. Circuitry for automatically placing control of the tuner to a preselected one of the tuning positions upon turn on of the receiver is also included.
TV TOUCH-TUNING IC: With the developmente of application covering the use of m.o.s. devices for television and radio channel selection and indication a device relates to a specially developed m.o.s.-technology integrated circuit which is already produced in development quantities. The touch -tuner as the i.c. is designated ans was intended to replace mechanical push-button TV tuner mechanisms. It provides a sensing system which operates in conjunction with a finger -touch plate, a switching arrangement to control a varicap tuner and in addition outputs to operate channel indicating neon lamps. The sensing system comprises a very high -impedance circuit which is effectively shorted out by the resistance of a finger placed across the external touch plate. One side of the touch plate is connected to the sensing input of the i.c. and the other to a positive voltage which may be d.c. or a.c. When the touch plate is operated the channels are stepped through in sequence: the selected channel latches on and the appropriate indicator lights. The i.c. operates from a standard 33V varicap tuner supply and enables up to eight channels to be selected. Remote control can be applied to the system if required and the set is provided for that. Touch -sensitive control units form a welcome and natural adjunct to the use of varicap tuner units. As they dispense completely with the need for electrical switches and switch contacts they should reduce further the number of service calls for tuning faults. Various circuit arrangements are used in touch operated tuner control units but all operate when a finger tip bridges a pair of contacts which incidentally look at first glance like a single contact. When the finger tip completes the circuit forward bias is applied to a high gain switching transistor. This in turn switches on another transistor or transistors and the net outcome is that the supply to the appropriate tuning potentiometer is connected and held on while the supply to the previously selected potentiometer is switched off. In addition a channel ident fication bulb is usually brought into circuit. As skin resistance is high the touch contacts must be incorporated in a correspondingly high resistance circuit; in practice resistor values in the range 10-22MegaOhm are used. The switching operations are carried out either by discrete transistors or i.c.s. Transistors form almost ideal switches of course.
It's a Circuit arrangement for establishing a reference potential of a chassis of an electrical device such as a radio and/or TV receiver, such device being provided with at least one contactless touching switch operating under the AC voltage principle. The device is switched by touching a unipole touching field in a contactless manner so as to establish connection to a grounded network pole. The circuit arrangement includes in combination an electronic blocking switch and a unidirectional rectifier which separates such switch from the network during the blocking phase.In electronic devices, for example TV and radio receivers, there are used in ever increasing numbers electronic touching switches for switching and adjusting the functions of the device. In one known embodiment of this type of touching switch, which operates on a DC voltage principle, the function of the electronic device, is contactlessly switched by touching a unipole touching field, the switching being carried out by means of an alternating current voltage.
In these tuning units, the working voltages of the capacity diodes in the tuning circuits are recorded once a precise tuning to the desired frequency has been performed. A potentiometer tuning system has great advantages over the formerly used channel selectors operating with mechanically adjustable capacitors (tuning condensers) or mechanically adjustable inductances (variometers), mainly because it is not required to have such great precision in its tuning mechanism. The resistances serving as voltage dividers in these tuning units are combined into a component unit such that they are in the form of a ladderlike pattern on a common insulating plate forming the cover of the housing in which the tuning spindles and wiper contacts corresponding to the variable resistances are housed. The number of resistances corresponds to the number of channels or frequencies which are to be recorded. The wiper contact picks up a voltage which, when applied to the capacity diodes determines their capacitance and hence the frequency of the corresponding oscillating circuit. The adjustment of the wipers is performed by turning the tuning spindle coupled to the tuning knob.
ITT Semiconductors have announced additions to their range of i.c.s for television receivers, mainly for use in the front end. First the company is offering an i.c. set for controlling TV tuners. It consists of two MOS i.c.s which provide all the data required for tuner control, such as tuning voltage, switching voltage for band selection (where applicable) and the a.f.c. signal. The set comprises the storage i.c. type SAA1020, which functions as a static shift register and has an extremely low current consumption, and the control i.c. type SAA1021, which performs the data processing duties. The low current consumption of the SAA1020 enables the channel data to remain stored for almost a year, even when the TV is switched off. Power is provided by a small 1.5V battery. This i.c. set also facilitates electronic station searching, with silent tuning. This method of station selection obviates the need for any mechnical tuning/storage devices (such as tuning potentio- meters). Also new is a 30 -channel ultrasonic transmitter/receiver combination, the SAA1024 and SAA1025. An altern- ative receiver circuit, the SAA1130, offers programme store as an additional facility. The latter can be used to drive the new SAA1008 character generator which enables the selected channel to be displayed on the screen.
First GRAETZ Television with the ITT VIDOM CHASSIS TECHNOLOGY.
The set is fabricated by SEL Standard Elektrik Lorenz.
Fortunately for the service problem to date, most failures occur in the vacuum tubes used in the television receivers. A faulty or inoperative vacuum tube is relatively easy to find and replace. However, where the television receiver malfunction is caused by the failure of other components, such as resistors, capacitors or inductors, it is harder to isolate the defective component and a higher degree of skill on the part of the serviceman is required.
Even with the great majority of the color television receiver malfunctions being of the "easy to find and repair" type proper servicing of color sets has been difficult to obtain due to the shortage of trained serviceman.
At the present time advances in the state of the semiconductor art have led to the increasing use of transistors in color television receivers. The receiver described in this application has only two tubes, the picture tube and the high voltage rectifier tube, all the other active components in the receiver being semiconductors.
One important characteristic of a semiconductor device is its extreme reliability in comparison with the vacuum tube. The number of transistor and integrated circuit failures in the television receiver will be very low in comparison with the failures of other components, the reverse of what is true in present day color television receivers. Thus most failures in future television receivers will be of the hard to service type and will require more highly qualified servicemen.
The primary symptoms of a television receiver malfunction are shown on the picture tube of the television receiver while the components causing the malfunction are located within the cabinet. Also many adjustments to the receiver require the serviceman to observe the screen. Thus the serviceman must use unsatisfactory mirror arrangements to remove the electronic chassis from the cabinet, usually a very difficult task. Further many components are "buried" in a maze of circuitry and other components so that they are difficult to remove and replace without damage to other components in the receiver.
Repairing a modern color television receiver often requires that the receiver be removed from the home and carried to a repair shop where it may remain for many weeks. This is an expensive undertaking since most receivers are bulky and heavy enough to require at least two persons to carry them. Further, two trips must be made to the home, one to pick up the receiver and one to deliver it. For these reasons, the cost of maintaining the color television receiver in operating condition often exceeds the initial cost of the receiver and is an important factor in determining whether a receiver will be purchased.
Therefore, the object of this invention is to provide a transistorized color television receiver in which the main electronic chassis is easily accessible for maintenance and adjustment. Another object of this invention is to provide a transistorized color television receiver in which the electronic circuits are divided into a plurality of modules with the modules easily removable for service and maintenance. The main electronic chassis is slidably mounted within the cabinet so that it may be withdrawn, in the same manner as a drawer, to expose the electronic circuitry therein for maintenance and adjustment from the rear closure panel after easy removal. Another aspect is the capability to be serviced at eventually the home of the owner.
It has a Transistorized horizontal deflection circuits made up of a horizontal switching or output transistor, a diode, one or more capacitors and a deflection winding. The output transistor, operating as a switch, is driven by a horizontal rate square wave signal and conducts during a portion of the horizontal trace interval. A diode, connected in parallel with the transistor, conducts during the remainder of the trace interval. A retrace capacitor and the deflection yoke winding are coupled in parallel across the transistor-diode combination. Energy is transferred into and out of the deflection winding via the diode and output transistor during the trace interval and via the retrace capacitor during the retrace interval.
In some television receivers, the collector of the horizontal output transistor is coupled to the B+ power supply through the primary windings of the high voltage transformer.
In early 1974 the Chief Engineer at ITT's Hastings television factory called a meeting of a small group of his colour TV engineers. He told them that the company planned to market a fully solid-state chassis by Christmas of the following year to supersede the long popular CVC5- CVC9 series of hybrid chassis, and that it was their job to design it. The objectives laid down were not modest. The new chassis had to be ultra -reliable, easy to service, and simpler to make than its predecessor. Reliability headed the list because of the reports of the problems other setmakers had had when changing from hybrid to solid-state colour chassis. It was considered vitally important that the new chassis should be without reproach in this respect. TYPE OF TUBE The first point that had to be agreed upon was the type of tube to use. The previous chassis had been fitted with 90° delta -gun tubes and had established a reputation for above average picture quality. These tubes are difficult to converge and set up however. Worse, particularly from the viewpoint of rental organisations, is the need to readjust them for best results as the convergence circuits age. The c.r.t. selected for the new chassis was the PHILIPS 20AX 110° -in -Line tube which has the great advantage of being already semi converged and purified, requiring less adjustment throughout its life. It has been described in some detail in previous issues of this blog , so I won't go over the principles again here. Briefly, it's an in -line gun tube with a slotted shadowmask and vertical RGB phosphor stripes, and with a precision toroidal scanning yoke which is permanently fixed to the tube. The only slight problem with this arrangement is that the cut-off points of the three guns cannot be matched by the conventional technique of adjusting the first anode controls. So a slightly different technique is used - varying the d.c. levels at the three cathodes.
The
new tube, to be known as the 20AX, has been developed by PHILIPS in
conjunction with the parent Philips / Mullard organisation and will be
produced by several Philips subsidiary companies on the Continent as
well as by PHILIPS in the UK. PHILIPS envisage quantity production of
the tube by 1976, mainly for export at first, with large-scale
production for UK set - makers starting in 1977. The tube has been
developed as "probably the final phase in the design of the 110°
shadowmask tube". Its main
features are the use of three guns mounted horizontally in line, the
use of a shadow - mask with slots instead of circular holes, and a
screen with the phosphors deposited in vertical stripes instead of as a
pattern of dot triads. It seems therefore that the days of the present
delta gun shadowmask tube are now numbered, though considerable
production will have to continue for many years to provide replacement
tubes for the millions of colour sets already in use. So far as the
viewer is concerned however it is important to appreciate the time scale
involved (see above) and the reasons for the development of the new
tube. There is nothing wrong with the type of shadow - mask tube we have
known since the beginning of colour TV: it is able to provide superb
pictures. But in its 110° form it does require rather a lot of
scan/convergence correction circuitry. If this can be reduced by means
of an alternative approach
as
with the 20AX tube considerable benefits in set production and
servicing will be obtained. This has been the aim behind the development
of the new tube, and the demonstration tube we have seen operating with
its associated deflection yoke and circuitry gave a picture every bit
as good as we have come to expect from the present "conventional"
approach to colour tube design. There are now four colour tubes with in
-line guns, the Sony Trinitron (the first to come along), the RCA /Mazda
PIL tube, the Toshiba RIS tube and now the PHILIPS 20AX. It is
interesting to compare them. The Trinitron is a 90° narrow neck (29mm)
tube. It differs from the others in using an aperture grill (slits from
top to bottom) instead of a mask behind the screen to shadow the beams
and a tube face which is substantially flat in the vertical plane. On
the domestic market it is used exclusively in Sony sets and certainly
represented a break through in simplifying the convergence circuitry and
setting up adjustments required. The Toshiba RIS (rectangular flare,
in-line guns, slotted shadowmask) tube has now turned up in the UK in
the recently introduced 18in. Sharp Model C1831H. Its most distinctive
feature is the rectangu- lar instead of conical tube flare and the
rectangular semi -toroidal scanning yoke which is used with this. It is a
110° thick neck (36mm) tube. The convergence arrangements are fairly
simple. The most interesting comparisons however are between the PI tube
and the 20AX. The first is a 90° tube of the narrow neck variety and
features a toroidal yoke which is cemented to the tube- thus if either
is faulty the entire tube/yoke assembly must be replaced. The great
advantage is that no dynamic convergence adjustments or circuitry are
required. It is at present limited to sizes up to 20in. and the
designers say that it is not intended as a successor to the standard
shadowmask tube above this size. Its depth compares with 110° tubes
because of the simplified gun structure used. The PHILIPS 20AX tube
differs from it in several respects. First it is basically a 110° tube
which can be produced in a whole range
of sizes production of 18, 22 and 26in. versions is proposed so that
set makers can use it with a single chassis for models of various
sizes. Secondly it uses saddlewound deflection coils which are separate
from though accurately aligned
with the tube. And thirdly it is a thick neck tube. Unlike the PI tube
in which all the gun electrodes except the cathodes are common to all
guns the electrodes of each gun in the 20AX are separately available at
the base. This means that in addition to RGB drive to the cathodes the
grids are available for blanking and beam limiting and the first anodes
for background control setting in the normal manner. In fact PHILIPS
emphasised that the new tube is entirely compatible with existing colour
set techniques though the whole convergence system is greatly
simplified. The basic idea behind these in line gun, slotted mask tubes
is that by mounting the guns horizontally in line the convergence errors
are confined to the horizontal plane and by applying an astigmatic
deflection field these errors are cancelled. This means that a fair
amount of cunning in the design of the deflection yoke is required. A
saddlewound yoke is more efficient than a toroidal yoke since the
deflection fields are totally enclosed.
In comparison to current 110° PHILIPS tubes the 20AX requires much the same horizontal deflection power but about twice the vertical deflection power (which can be obtained without trouble from modern semiconductor devices). The use of a separate yoke with a tube of this type means that some dynamic convergence controls are still necessary, in order to match the assemblies. PHILIPS refer to these as "tolerance adjustments" rather than "dynamic convergence controls". About seven are required at present though further work is being done on this and by the time sets with the new tube appear we can expect some reduction. A single pincushion transductor is required instead of the two needed with 110° shadowmask tubes of the present variety. In comparison the PIL tube requires no dynamic convergence adjustments, only some simple tube neck magnets for static setting up. It is a little less efficient however because of the type of yoke employed. Whatever else happens there is no doubt that the vast majority of colour tubes fitted to TVC sets come 1977 will be of the in line gun, slotted mask, vertical phosphor stripe variety. Two further points made by PHILIPS at their demonstration : first, this type of tube requires less degaussing so that there are worthwhile savings in the amount of copper required for the degaussing coils: secondly their new tube, and in fact all PHILIPS monochrome tubes and shortly their colour tubes as well, will incorporate "instant on" guns which come into operation about five seconds after the set is switched on instead of the 30 seconds or more taken by present tubes. This instant on feature is based on a new heater/cathode assembly in which the use of mica insulators has been avoided.
Meanwhile we understand that in addition to RCA and, in the UK, Mazda, ITT and Videocolor SA are to produce PIL tubes. Whilst congratulations all round was appropriate on the successful development of these tubes it does seem a pity that was about to enter for the first time an era of non compatible colour c.r.t.s.
Graetz AG (formerly Ehrich & Graetz AG) was a German manufacturer of petrol lamps. In 1899 the company began to produce radio sets at its plant in Treptow, Berlin. The company lent its name to an electrical circuit called the diode bridge, which is better known as the full-wave bridge rectifier. A drawing of this circuit attributed to Graetz, dated 1897, appears in a paper by Chattopadhyay.
On January 2nd, 1866, master plumber Albert Graetz (1831-1901), together with the distributor Emil Ehrich, founded the "Lampen-Fabrik Erich and Graetz OHG" (Erich and Graetz Lamp Factory, Unlimited), on Dresdener St. in Berlin. Albert Graetz felt compelled to end the "dark times" of what he referred to as "Rueboelfunzein" (vegetable oil lamps), through the introduction of improved lamp designs. Thus, Ehrich and Graetz manufactured and sold, quite successfully, air-draft kerosene lamps under the brand names "Akaria", Matador", and "Iris". In 1889, Albert Graetz handed over management of the company to his sons Adolf (1860-1909) and Max (1861-1937), Emil Ehrich having left the company some time earlier.
n early 1961, Erich Graetz, having no family successor to take over the company, sold 74.5% of "Graetz KG" to the high-bidding "SEL" (Standard- Elektronik-Lorenz AG) (the "Phillips" corporation also being a bidder). The remaining 25.5% of the shares were held by the "Westfaelische Kupfer-und Messing-Werke AG" (Westfaeli Copper and Brass Factories Corporation), as a purely speculative investment holding. "SEL", in turn, eventually sold the factories to "Nokia", of Finland. At the Altena factories, the Petromax lantern continued to be built in to the 1970's.
Literatur
Ernst Quadt: Deutsche Industriepioniere. Berlin 1940, DNB 57569811X.Peter Süß: Ist Hitler nicht ein famoser Kerl? Graetz. Eine Familie und ihr Unternehmen vom Kaiserreich bis zur Bundesrepublik. Verlag Ferdinand Schöningh, Paderborn u. a. 2003, ISBN 3-506-78561-3. (Rezension)
Aubrey Pomerance (Hrsg.): Jüdische Zwangsarbeiter bei Ehrich & Graetz, Berlin-Treptow. Zeitzeugnisse aus dem Jüdischen Museum Berlin. DuMont, Köln 2003, ISBN 3-8321-7839-2.
Einzelnachweise
radiomuseum.org: Kornett F27. Abgerufen am 17. März 2016.radiomuseum.org: Super Page 47F. Abgerufen am 17. März 2016.
Jens Dehne: Die Marke Graetz im Wandel der Zeiten. (Memento des Originals vom 5. April 2007 im Internet Archive) Info: Der Archivlink wurde automatisch eingesetzt und noch nicht geprüft. Bitte prüfe Original- und Archivlink gemäß Anleitung und entferne dann diesen Hinweis. auf: del-service.de, Stand 6. August 2009.
ITT Corporation (NYSE: ITT) is a global diversified manufacturing company with 2008 revenues of $11.7 billion. ITT participates in global markets including water and fluids management, defense and security, and motion and flow control. Forbes.com named ITT Corporation to its list of "America's Best Managed Companies" for 2008, and awarded the company the top spot in the conglomerates category.
ITT's water business is the world's largest supplier of pumps and systems to transport, treat and control water, and other fluids. The company's defense electronics and services business is one of the ten largest US defense contractors providing defense and security systems, advanced technologies and operational services for military and civilian customers. ITT's motion and flow control business manufactures specialty components for aerospace, transportation and industrial markets.
In 2008, ITT was named to the Dow Jones Sustainability World Index (DJSI World) for the tenth time in recognition of the company's economic, environmental and social performance. ITT is one of the few companies to be included on the list every year since its inception in 1999.
The company was founded in 1920 as International Telephone & Telegraph. During the 1960s and 1970s, under the leadership of its CEO Harold Geneen the company rose to prominence as the archetypal conglomerate, deriving its growth from hundreds of acquisitions in diversified industries. ITT divested its telecommunications assets in 1986, and in 1995 spun off its non-manufacturing divisions, later to be purchased by Starwood Hotels & Resorts Worldwide.
In 1996, the company became ITT Industries, Inc., but changed its name back to ITT Corporation in 2006.
History
ITT was formed in 1920, created from the Puerto Rico Telephone Company co-founded by Sosthenes Behn.[1] Its first major expansion was in 1923 when it consolidated the Spanish Telecoms market into what is now Telefónica.[2] From 1922 to 1925 it purchased a number of European telephone companies. In 1925 it purchased the Bell Telephone Manufacturing Company of Brussels, Belgium, which was formerly affiliated with AT&T, and manufactured rotary system switching equipment. In the 1930s, ITT grew through purchasing German electronic companies Standard Elektrizitaetsgesellschaft (SEG) and Mix & Genest, both of which were internationally active companies. Its only serious rival was the Theodore Gary & Company conglomerate, which operated a subsidiary, Associated Telephone and Telegraph, with manufacturing plants in Europe.
In the United States, ITT acquired the various companies of the Mackay Companies in 1928 through a specially organized subsidiary corporation, Postal Telegraph & Cable. These companies included the Commercial Cable Company, the Commercial Pacific Cable Company, Postal Telegraph, and the Federal Telegraph Company.
International telecommunications
International telecommunications manufacturing subsidiaries included STC in Australia and Britain, SEL in Germany, BTM in Belgium, and CGCT and LMT in France. Alec Reeves invented Pulse-code modulation (PCM), upon which future digital voice communication was based. These companies manufactured equipment according to ITT designs including the (1960s) Pentaconta crossbar switch and (1970s) Metaconta D, L and 10c Stored Program Control exchanges, mostly for sale to their respective national telephone administrations. This equipment was also produced under license in Poznań (Poland), and in Yugoslavia, and elsewhere. ITT was the largest owner of the LM Ericsson company in Sweden but sold out in 1960.
1989 breakup
In 1989 ITT sold its international telecommunications product businesses to Alcatel, now Alcatel-Lucent. ITT Kellogg was also part of the 1989 sale to Alcatel. The company was then sold to private investors in the U.S. and went by the name Cortelco Kellogg. Today the company is known as Cortelco (Corinth Telecommunications Corporation, named for Corinth, MS headquarters). ITT Educational Services, Inc. (ESI) was spun off through an IPO in 1994, with ITT as an 83% shareholder. ITT merged its long distance division with Metromedia Long Distance, creating Metromedia-ITT. Metromedia-ITT would eventually be acquired by Long Distance Discount Services, Inc. (LDDS) in 1993. LDDS would later change its name to Worldcom in 1995.
In 1995, ITT Corporation split into 3 separate public companies:
* ITT Corp. — In 1997, ITT Corp. completed a merger with Starwood Hotels & Resorts Worldwide, selling off its non-hotel and resorts business. By 1999, ITT completely divested from ITT/ESI; however, the schools still operate as ITT Technical Institute using the ITT name under license.[1] Also in 1999, ITT Corp. dropped the ITT name in favor of Starwood.[7]
* ITT Hartford (insurance) — Today ITT Hartford is still a major insurance company although it has dropped the ITT from its name altogether. The company is now known as The Hartford Financial Services Group, Inc.
* ITT Industries — ITT operated under this name until 2006 and is a major manufacturing and defense contractor business.
o On July 1, 2006, ITT Industries changed its name to ITT Corporation as a result of its shareholders vote on May 9, 2006.
Purchase of International Motion Control (IMC)
An agreement was reached on June 26, 2007 for ITT to acquire privately held International Motion Control (IMC) for $395 million. The deal was closed and finalized in September 2007. An announcement was made September 14, 2010, to close the Cleveland site.
Purchase of EDO
An agreement was reached September 18, 2007 for ITT to buy EDO Corporation for $1.7 billion.[12] After EDO shareholders' approval, the deal was closed and finalized on December 20, 2007.
Purchase of Laing
On April 16, 2009, ITT announced it has signed a definitive agreement to acquire Laing GmbH of Germany, a privately held leading producer of energy-efficient circulator pumps primarily used in residential and commercial plumbing and heating, ventilating and air conditioning (HVAC) systems.
2011 breakup
On January 12, 2011, ITT announced a transformation to separate the company into 3, stand-alone, publicly-traded, and independent companies.
The International Telephone and Telegraph Company was founded in 1920 by Colonel Sosthenes Behn. Early takeovers formed the company into a worldwide leading conglomerate for telephone technology and other communication technologies - a role that was further supported by the company's expansion during World War II.
After the war ITT expanded in other trades such as automobile technology, satellite communication, liquid technologies, and even the hotel business with the takeover of Sheraton Hotels in the year 1968.
In 1979 the company started to sell off some of its wide spread fields of action. A process that reached its peak in 1995 with the split into three separate listed companies - ITT Industries, ITT Hartford Group and ITT Destinations. ITT Destinations, a service provider in the hospitality industry was later sold to Starwood Hotels & Resorts. The ITT Hartford Group, a subsidiary in the insurance industry was separated as Hartford Financial Services.
Today ITT Corp. is a worldwide operating enterprise with a turnover of 9 bln US$ in the year 2007 and leading positions in its four main areas of operations. Around 40.000 people are employed worldwide. The company is seated in White Plains, New York.
ITT is the worldwide leading supplier of pumps, systems, and services for the control and treatment of water and other liquids. The company is a main supplier of high-end military defense systems and offers its technical and operational services to a wide range of government agencies. Further, ITT produces plugs, switches, and wirings which are being used in telecommunications, computers, aviation, industrial applications, and networks. ITT is also a manufacturer of industrial components which are being used in transportation, construction, and aviation.
ITT's history in consumer electronics reaches back far into the year 1930 when ITT became a major shareholder in the company "Mix & Genest AG" which was founded in 1879 by Wilhelm Mix and Werner Gerest, as well as the company "C. Lorenz AG" which was founded in 1880 by Carl Lorenz. These two companies had their main fields of business in radio technology, whereas the "C. Lorenz AG" positioned itself with the takeover of the "G. Schaub Apparatebau-Gesellschaft mbH" in 1940 in the development and manufacturing of radio broadcast receivers. From 1950 on all products were manufactured by Schaub in the city of Pforzheim; in 1952 the model range of both companies was merged and the distribution of Lorenz radios was integrated in the company Schaub. From 1955 on all products were distributed under the brand name "Schaub-Lorenz". In 1958 the companies "Standard Elektrik AG" and "C. Lorenz AG" were merged into the "Standard Elektrik Lorenz AG" (SEL). From 1979 on this field of business was named "Audio-Video-Elektronik" and belonged to ITT; the products - such as television sets, radios, car radios, cassette recorders, world receivers, and speaker boxes - were being distributed under the brand name "ITT Schaub-Lorenz". In 1987 ITT established together with the French "Companie Générale d'Électricité" the European group of companies named "Alcatel n.v.", where the consumer electronics branch was sold to Nokia in early 1988. With that, Schaub-Lorenz, as well as the TV manufacturer Graetz, which was taken over by SEL in 1961, belonged to Nokia. From then on Nokia distributed consumer electronics products, such as television sets, video recorders, and amplifiers under the brand name "ITT Nokia". Nokia, however, soon quit the distribution of consumer electronics and focused on the manufacturing of mobile phones...
HISTORY OF Standard Elektrik Lorenz AG IN GERMAN:
Die Standard Elektrik Lorenz AG (heute Alcatel-Lucent Deutschland AG) ist ein Unternehmen der Nachrichtentechnik (früherer Slogan: SEL – Die ganze Nachrichtentechnik) mit Hauptsitz in Stuttgart. Zur Nachrichtentechnik zählen auch Informations- und Kommunikationstechnik, Telekommunikationstechnik (SEL war für die Röchelschaltung bekannt) und früher Fernmeldetechnik oder Schwachstromtechnik. Einen weiteren Geschäftsbereich hatte das Unternehmen in der Bahnsicherungstechnik, so wurden für die Deutsche Bundesbahn Relaisstellwerke und elektronische Stellwerke mit den dazugehörigen Außenanlagen (Signale, Gleisfreimeldeanlagen, Weichenantriebe) sowie die Linienzugbeeinflussung entwickelt und gebaut, welche auch bei ausländischen Bahnen Abnehmer fanden. Der Bereich gehört seit 2007 als Thales Transportation Systems GmbH (seit 02.2011 vorher Thales Rail Signalling Solutions GmbH) zum Thales-Konzern. Die bereits 1998 ausgegliederten Bereiche Alcatel Air Navigation Systems und SEL Verteidigungssysteme sind ebenfalls heute in Thales Deutschland beheimatet.[1]
Fernseher Illustraphon 743 von 1957
„Goldsuper Stereo 20“ (1961)
Das Flaggschiff der erfolgreichen Schaub-Lorenz Kofferradios der sechziger Jahre: Touring 70 Universal
Erster Digitalfernseher der Welt (1983)
Bis 1987 gehörte SEL zusammen mit anderen auf dem Sektor Telekommunikation in anderen Ländern tätigen Schwesterfirmen zum US-amerikanischen Mischkonzern International Telephone and Telegraph (ITT). ITT verkaufte die Aktien-Mehrheit an den ITT-Telekommunikationsfirmen an die französische Compagnie Générale d’Electricité (CGE), die nach der Zusammenfassung mit den eigenen Telekommunikationsaktivitäten daraus die Alcatel N.V. bildete.
Die Standard Elektrik Lorenz AG wurde 1993 in Alcatel SEL AG umbenannt. Die Aktienmehrheit liegt mit über 99 % bei der Alcatel. Mit der Fusion von Alcatel und Lucent zu Alcatel-Lucent am 1. Dezember 2006 und der Neu-Firmierung beider Unternehmen in Deutschland zur Alcatel-Lucent Deutschland AG entfiel der Zusatz SEL.
Geschichte
Die beiden Stammfirmen des Unternehmens, die Mix & Genest AG und die Telegraphenbauanstalt von C. Lorenz, wurden 1879 bzw. 1880 gegründet. Das erste Patent von Mix & Genest datiert von 1883, das erste Patent von C. Lorenz ist aus dem Jahr 1902.
Das Unternehmen Mix & Genest war wesentlicher Teil der Standard Elektrizitäts-Gesellschaft (SEG), in die auch die Süddeutsche Apparatefabrik (SAF), die 1875 von F. Heller als "Friedrich Heller, Fabrik Elektrotechnischer Apparate" gegründet wurde, integriert wurde. Der technische Schwerpunkt von Mix & Genest bzw. SEG sowie der C. Lorenz AG war der klassischen Fernmelde- bzw. Funktechnik zuzuordnen. Die C. Lorenz AG baute in den 1920er und 1930er Jahren Großsender für den neu gegründeten Rundfunk.
1930 übernahm die International Telephone and Telegraph Company (ITT) die Aktienmehrheit der Mix & Genest AG und der C. Lorenz AG. [2]
Die C. Lorenz AG positionierte sich mit der Übernahme der G. Schaub Apparatebau-Gesellschaft mbH im Jahr 1940 in der Entwicklung und Herstellung von Rundfunkempfängern. Ab dem Jahr 1950 wurden alle Geräte bei Schaub in Pforzheim gefertigt. 1952 wurde das Typenprogramm beider Unternehmen verschmolzen und der Lorenz-Radio-Vertrieb in die Firma Schaub integriert. Ab 1955 wurden die Geräte unter dem Namen Schaub-Lorenz vertrieben.
1956 wurde das Unternehmen SEG in Standard Elektrik AG umbenannt. Ebenfalls 1956 wurde ein Kabelwerk gegründet. Wesentlicher Motor für das 1957 gegründete Informatikwerk war Karl Steinbuch, der von 1948–1958 dem Unternehmen, zuletzt als Technischer Direktor und Leiter der Zentralen Forschung, angehörte.
1958 erfolgte die Vereinigung der Standard Elektrik AG mit der C. Lorenz AG zur Standard Elektrik Lorenz AG (SEL).
Die Standard Elektrik Lorenz AG übernahm 1961 die Graetz KG. Die Firmenteile Schaub-Lorenz und Graetz waren zusammen mit einem Bildröhrenwerk Bestandteil der Unternehmensgruppe Audio Video der SEL AG, die 1979 als Audio-Video-Elektronik in die ITT ausgegliedert wurde. Die Produkte, die unter anderem Fernsehgeräte, Radios, Autoradios, Kassettenrecorder, Weltempfänger und Lautsprecherboxen umfassen, wurden fortan unter dem Namen ITT Schaub-Lorenz vertrieben.[2]
Versuche, auf dem neuen Gebiet der Raumfahrt-Elektronik Fuß zu fassen, waren auf folgende Produkte beschränkt:
* AZUR: Telemetrie/Telekommandogeräte
* Spacelab: Datenerfassung/Kommandoterminal.
SEL entwickelte zu Beginn der 1970er Jahre das Präzisionsanflugverfahren SETAC. Dieser Unternehmensbereich wurde im Jahre 1987 von der finnischen Firma Nokia übernommen.
1976 hatte SEL ein Grundkapital von 357 Mio. DM bei 33.000 Beschäftigten und einem Umsatz von 2,6 Mrd. DM.
1983 stellte SEL auf der Internationalen Funkausstellung Berlin 1983 mit dem ITT Digivision den weltweit ersten Fernseher mit digitaler Signalverarbeitung vor.[3]
2003 wurden die Markenrechte am Namen Schaub Lorenz an die italienische General Trading SpA verkauft. Die neugegründete Schaub Lorenz International GmbH vertreibt seitdem unter dem alten Markennamen Schaub-Lorenz importierte Konsumelektronik aus dem unteren Preisbereich.
A brief note about on Television sets reliability and durability..........................
ANYONE
with even the smallest experience of television engineering is bound to
come up against that embarrassing question which is always so difficult
to answer-"which TV shall I get?" The questioner is usually concerned
about obtaining the cheapest and most reliable receiver that is
available, and this same approach generally governs the choice between
buying when new - restoring in this time. This is perfectly reasonable and often applies to
other consumer products apart from TV.
What does seem a little strange
however is that no one ever seems to ask "which TV set gives the best
picture?" Why not? Doesn't anyone care, or is the question too
complicated to discuss?
Yet the average person spends five and a half
hours a day, every day, watching TV garbage:
The Propaganda TV Machine a.k.a. The Ministry of Truth delivers The Truth from The Government to the people.
At least, that's what they say. In fact, a Propaganda Machine is only employed by The Empire and used to brainwash people into Gullible Lemmings who believe that everything is all right when in fact, it isn't, and that the very people who could help them are their enemies..............
At least, that's what they say. In fact, a Propaganda Machine is only employed by The Empire and used to brainwash people into Gullible Lemmings who believe that everything is all right when in fact, it isn't, and that the very people who could help them are their enemies..............
................... so the quality of the picture must
be important........................
expecially
for those football idiots so the they have the motivation to glue their
assface on the screen all day long to discover better somewaht in their
ignorance.
........Now................It
is high time that people began to realise this simple fact, and to take
an interest in the quality of the product that absorbs so much of their
spare time. There are of course plenty of people who are genuinely
interested in good picture quality. It is unlikely for example that so
many readers of this Blog would be taking part in the magnificent TELEVISION colour receiver project,
but more likely restoring monochrome receivers or adapting old color
ones, if they were
indifferent to the quality of the picture obtained at the end of the
day. But today times seems changing, the trend started by many readers
of Obsolete Technology Tellye ! have had a significative rise up in
recovering and restoring old CRT's TV's and started to build up
collections by people in many lands worldwide.
Good CRT picture quality cannot however be achieved merely by
connecting together the appropriate groups of circuits. Sometimes in
fact even well established designs can present problems if they are
assembled in a different way to the original or with non-standard
components.
So what constitutes good picture quality and what do you do
when things go wrong?
It is not much use delving into the textbooks
because they are strangely unhelpful about this sort of thing.
At least
however we can here at Obsolete Technology Tellye ! establish some
basic principles to use as a starting point. There is a difference
between the kind of picture quality defects that you would expect to
find in a manufactured receiver compared to one made by a home restorer /
constructor.
A CRT manufactured receiver usually has only minor faults
and one wants to'assess how well it compares with the products of other
set - makers.
Todays trade, threw a rather different light on matters
however. Briefly, we found that during CRT boom periods for the
setmakers reliability increased whilst during periods of diminishing
sales a fall in the standard of reliability became evident, so you will find excellent sets from the 70s/80s. I had
tended to think that a boom meant an attitude of anything goes to get as
many sets out to meet the demand, with consequent corner cutting and
use of whatever alternative components could be got hold of if
necessary. The overriding point seems to be however that in boom
conditions with a seller's market prices can be maintained and quality
standards kept up whilst in flat market conditions there is overwhelming
pressure on prices and reliability tends to fall. It is difficult to be
too sure about this since the worst trading period coincided with the
era of dual standard analog TV sets which may eventually but not certainly inevitably less
reliable than the single -standard chassis which preceeded and succeeded
them. It would however tie up about the comparative reliability of
colour and monochrome sets, since the era of colour boom coincides with a
very flat period in monochrome set production and sales, that in
talking about reliability means overall dependability rather than
initial statistics for unboxed set condition.
That all said is very
applicable to todays times, with completely different technically means, reality where
unfair market conditions focibly applied to European firms by an elite which has
only the will and target to destroy European eritage at all
levels with the main point in destroying local economy.
It includes:
- A number of areas of law involving acts by one
competitor or group of competitors which harm another in the field, and
which may give rise to criminal offenses and civil causes of
action.
- Trade libel, the spreading of false information about the quality
or characteristics of a competitor's products, is prohibited at common
law but still high present and unstopped.
- Various unfair business
practices such as fraud, misrepresentation, and unconscionable contracts
may be considered unfair competition, if they give one competitor an
advantage over others expecially all from the so called ASIATIC MARKET.
Therefore:
All of todays apparates are literally absolute GARBAGE when new and resulting often broken when out of the box after purchase. Poor engineering, manufacturing and materials in the main part, combined with unfair massive import to Europe of such DUMP goods, at cheap prices in closed hard tight market (so they can be the only 2 3 competitor in foreign lands and all locals firms brought to death by heavy taxations, troublesome difficulties at all levels) and sold with medium to high prices respect to initial build costs !!
For that there can't be a comparation of reliability between a CRT TV SET and any one of todays sets, which often are resulting in a SCAM mainly under the technological part, emerging, even, from the first repair attempt !
...... And in the end you will NEVER SEE a restoring of ANY of the Actual todays electronic GARBAGE !
R.I.P. GERMANY !
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