Instructions for the use of the Velco Model S431
ARTHUR J. VEAL PTY. LTD. - - Melbourne, Prahran, Camberwell and Moone Ponds. Page 3
The “Velco” S431 Analyser has been designed with the object in view of providing an efficient and reliable means of servicing all types of Radio Receivers and Public Address Systems.
The following instructions should be carefully studied before attempting to use the Analyser, as a complete knowledge will expedite the location of whatever fault happens to exist.
The Analyser is essentially a free reference point instrument, meaning that all meter readings are obtained by the external application of the test cords.
Along the left side of the analyser panel will be noticed a row of sockets. The first four down from the top are the milliamp ranges; the fifth socket being the meter common negative. The numerals shown under each socket have their counterpart on the meter scale. Any value of milliamps applied to the correct pair of sockets will be accurately indicate don the meter.
It is essential before attempting to use the milliamp scale to set the selector knob (on right side of panel) to the milliamp position. The 0-1 milliamp scale has a position of its own.
Immediately under the milliamp range will be noticed two sockets marked “Ohms.” Upon the insertion of test cords into these sockets and the setting of Selector Knob to “ohms” position, the ohms values of the resistors under test can be read directly from the top scale. If a test of low resistor values is required the selector knob should be set to position marked "0-:-10." The reading shown on the top scale should then be divided by 10. A correct reading will then be obtained.
It is important to note that before attempting to measure a resistor the test cords should be shorted together and the left pointer knob marked "ohms Adj." should be adjusted until the meter needle lies exactly over the scale divisional line marked Zero. This zero adjustment should always be checked when resistor values are to be tried, also when the Selector Knob is changed from high or low ohms readings.
When the ohms scale is scale is being used never hold the metal l points with fingers as, due to body leakage, a fictitious will be obtained.
This error in resistance readings can assume quite large proportions when a high value resistance is being checked. Always hold the test prods by the insulated sleeve.
The ohmmeter scale is very useful when used as a continuity meter. The location of shorting condensers, shorts between high potential windings and those at zero potential, open circuited transformer and coil windings, etc., can be located easily.
The 4.5 volt battery in the case is used in conjunction with the ohms scale. After a lengthy period it will be found that the ohms adjustor will not bring the meter needle to zero setting. When such a condition arises, the battery should be replaced. When replacing see that the battery is connected for correct polarity.
Along the right side of analyser panel the four sockets from the top provide four different voltage values. The fifth socket is the meter negative. All that is necessary is to place the test cord into the socket providing the necessary voltage scale, placing also the selector knob to the "volts" position. The correct reading of the applied voltage will be shown on the meter scale. Each voltage value shown under the sockets has its counterpart on the meter scale.
Immediately under the voltage sockets are two sockets marked "ohms." They are to be used exactly as stated earlier in these instructions when dealing with ohms. Both pair of ohms terminals are connected in parallel internally. It is immaterial which pair is used.
When it is necessary to take voltage and current readings from a Radio Receiver or Amplifier, the operator can either obtain the readings by using the test cords direct from the analyser to the receiver, etc., or by utilizing the extension cable terminating in a seven pin plug. The latter test can often be made without removing the chassis from the cabinet.
A number of adaptors are provided to accommodate the various types of tubes available.
An adaptor corresponding to the tube under test is attached to the extension plug, the assembly is then inserted into the vacant tube socket in the receiver. The tube
should be placed in its correct socket on the analyser. After applying the mains voltage to the apparatus comprehensive tests can be made, such as determining the plate and screen voltage, the bias voltage, the plate and screen current, grid current, etc.
Along the front of the analyser panel are eighteen sockets numbered in pairs from one to nine, each pair being connected to a tube element terminating at the tube socket or to the top connection on the tube.
Between the sockets are nine press buttons. When. all the press buttons are at normal position, a shorting contact joins each pair of sockets together.
If it is desired to know how many milliamps are flowing from a certain element the selector switch is placed in the milliamp position. The two short connecting cords are inserted into the milliamp sockets at left side of panel, one in the negative socket, the other in the positive socket, making sure that the range used is adequate for the amount of current that is flowing. The other ends of the connecting cords are placed in the sockets corresponding to the element under test making sure that the polarity is correct. After these connections have been checked the button between the two sockets in use can be pressed and the current reading of that particular element can be read from meter scale.
Before using the analyser in the preceding test and all subsequent tests of a similar nature a tube characteristic chart should be obtained, covering all makes of tubes. On these charts will be shown the various socket connections; also it will be noted that each contact is numbered.
The maximum number of contacts used at present is eight. It is necessary then to provide access to each contact for test purposes.
The nine pairs of sockets on the analyser are provided for that purpose.
The 9th contact will be mentioned later.
Each number on the analyser corresponding to a similarly numbered contact as shown on the tube chart.
As an example:-
If it is desired to check the working conditions of a 6F6 Pentode tube proceed as follows:-Remove the 6F6 from the receiver and place it in the correct socket of the analyser and after fitting the correct adaptor to the extension plug (octal adaptor)
insert the assembly into the vacant socket in the receiver. When the tubes have
warmed up, the various readings can be made.
If a plate current reading is desired, set the selector knob to the correct position and then place the two connecting cords into the milliamp sockets using the 100 milliamp range. On inspecting the tube chart it will be seen that socket contact No. 3 is the plate of the 6F6. To obtain a plate milliamp reading it is necessary to insert the free ends of the connecting cords into analyser sockets No. 3, making sure the polarity is correct. After checking all connections the button between No. 3 sockets should be pressed. Everything being normal the meter. reading should show approximately 34 milliamps.
To ascertain the voltage at the plate of the 6F6 place the connecting cords in the correct voltage scale sockets, the free negative end going to at top of panel and the free positive end being placed in socket No. 3. The effective plate voltage will now be shown. It is not necessary to press the buttons for voltage readings.
The main thing to remember is that all the numbers shown on the analyser will definitely correspond to any contact similarly numbered on the tube chart
The No. 9 sockets on analyser are always common to the contact marked "T.C." at the top of panel. A connecting cable is inserted into T.C. when checking any tube having a top connection. A special cable is provided for top connection purposes.
As an example:-If it is desired to test a screen grid tube, say a 6K7, the tube is transferred to its correct socket in the analyser and the extension plug with its adaptor is placed in the vacant receiver socket. Connect the free grid clip on the receiver to No. 9 cap contact on the side of extension plug then complete the circuit by placing the short cable provided from T.C. on analyser to the cap of the 6K'T. The grid circuit is now completed via No. 9 sockets.
A word of warning might be given to use care when carrying out the various tests. Always make sure the correct meter scale is in use. If a high voltage is accidentally applied to a low milliamp range severe damage to the meter movement may result. Such damage can only occur through carelessness. Always check analyser connections before taking readings and also make sure there is a sufficient margin on the meter scale used to accommodate any voltage or current that may be likely to flow in the circuit under test.
MODELS 445 and 485
Set Analysers
MODEL 445-Illustrated and described at left and priced at
£11/18/6, or on easy Terms - £3/18/6 deposit with 9 monthly
payments of 20/- each.
MODEL 485 similar to illustration and fully described on
Page 7.
The Velco Modal 485 for the advanced student or engineer.
Completely tests all types of radio sets and gives a point-to-point
analysis without removing chassis from cabinet. Features direct
reading on meter scale of-
Volts, A.C. /D.C. - 1250, 250, 125, 25, 5.
Milliamps - 500, 135, 25, 5, 1.
Decibels – 12 to plus 9, plus 2 to p1us 23, Plus 16 to plus 27.
Ohms – 0-5 meg., 500,000, 50,000, 5,000, 500.
Henries – 0-20,000, 0-2,000, 0-20.
Microfarads – 0-50, 0-5, 0- 0.05.
Price …………….. £16/15/-n
Easy Terms £5/15/- Deposit with 12 monthly payments of
20/- ea.
INSTRUCTIONS FOR USING MODEL 445
ARTHUR J. VEAL PTY. LTD. - - Melbourne, Prahran, Camberwell and Moone Ponds. Page 8
With the Velco Calstan Model 445 Analyser it is possible to make a complete analysis of the various functions associated with all Radio Receivers and Public Address equipment.
The Analyser section of this instrument when used intelligently will provide a ready means of ascertaining the currents and voltages existing in whatever equipment is being tested.
At the top of the panel will be found six tube sockets which are used in conjunction with the multi-wire cable terminating in a hand plug (located in the accessory compartment).
At the bottom of the panel will be seen a row of socket terminals These sockets are available to provide access to the various tube elements for test purposes. The numerals against each socket have their counterpart either as tube base contacts or top cap contacts.
To use the analyser efficiently it is necessary to obtain a tube manufacturer's characteristic chart. On inspecting the chart it will be noticed that each tube base contact is numbered, whatever number is shown against a base contact on the chart has its counterpart in the corresponding numbered socket on the analyser.
As an example we will suppose that a radio receiver is being tested and it is desired to test the output tube for the applied voltage and current. The tube that will be chosen for test is the Power Penthode Type 42.
Remove the 42 tube from the receiver and place it in the correct socket in the analyser. The 7 to 6 pin adaptor is attached to the analyser hand plug which is then placed in the receiver socket vacated by the 42.
The first test to be made is to ascertain the existing plate current. On examining the tube chart it will be seen that the base contact No. 2 is the plate connection. Set the
.
"Analyser" switch on the right of panel to setting No. 2, placing also the "Range" switch in the "M.A." position. The two short bridge leads (supplied) are inserted into the plus and minus sockets on the panel, the free end of the minus lead being placed in the socket marked "COM" and the plus lead into socket No. 2 (plate contact)
Connect the Mains supply to the receiver and allow tube time to heat. Everything being correct the meter should read approximately 35 M.A. depending on the applied plate voltage.
It may be desired to check the screen current of the 42. The tube chart will show that the 42 screen connection is contact No. 3. Set the "Analyser" switch to position No. 3, also moving the Plus lead to socket No. 3. The meter should now indicate the current flowing.
The "Meter" switch is placed in the D.C. position for the tests just described, also when taking voltage readings.
Incidentally, if there is any doubt as to the current values existing in the various circuits always use the highest Range Setting, a lower range position can then be used if necessary. Such action will protect the meter from an overload.
The meter can be placed in series with any tube element simply by rotating the "Analyser" switch to the element it is desired to test and bridging from the plus socket to that particular element or socket.
If it is desired to take a voltage reading at the plate of the 42 tube, the "Analyser" switch should he placed in the off position. Insert the two test prods into the sockets marked Plus and Minus, placing the minus test cord into socket No. 1 and the plus cord into socket No. 2 (Plate socket). Set the "Range" switch to 1250 volts and the "Meter" Switch to the "D.C." position. The existing plate voltage will be shown on the D.C. Meter Scale.
The voltages present at the various tube elements call all he read by selecting the correct socket on the analyser; the number corresponding to the element to be tested will be found on the tube chart.
The tests so far described in these instructions have all been conducted in conjunction with the extension cable and with the tube placed in its correct socket on the analyser.
The Multimeter can be used for all manner of external tests. When using the multimeter under such conditions the "Analyser" Switch should always be placed in the "OFF" position.
With the test cords in the Plus and Minus sockets it is possible to take external
milliamp and voltage readings simply by rotating the ''Range" Switch to the
desired setting . The ''Meter'' Switch will have to be placed in the D.C. or A.C. position depending on the voltage to be tested.
By placing the ''Meter'' Switch in the ''O.P.'' position the meter can be used to indicate output volts. The purpose of the he output meter is to provide a visual indication of correct receiver alignment. It can also be used for comparison in sensitivity tests of Radio Receivers or Public Ad-dress Systems where a calibrated source of constant amplitude voltage is available.
The Output Meter is used mainly for Receiver alignment purposes where a modulated Radio Frequency Signal is fed into either the signal frequency or intermediate frequency section of a Radio Receiver. The purpose of the Output Meter under such conditions is to indicate maximum energy transfer (max. needle swing) when all trimming condensers, etc., are brought to their peak.
The output meter is usually connected either across the speaker transformer primary winding or from the plate of the output tube to the chassis.
The five- voltage ranges are used in conjunction with the output meter. The larger the voltage range used the smaller the needle deflection providing the output voltage is held constant.
The Ohms readings are obtained by setting the "Meter" switch to the D.C. position, the "Rang" switch to "ohms" setting and the "ohms selector" switch to the. correct position for the Resistor under test.
The first two positions of the "ohms selector" switch to the left of the "off" position necessitates the division of the numerals printed directly on the top scale by 100 and 10 in that order. With the Ohms Selector on the "S.C." position the resistor values are read directly from the meter scale. The next ohms selector setting requires the existing scale markings to be multiplied by 10, that setting will of course be used for high resistor readings.
Before applying the prods to the resistor under test the metal points should be shorted together and the knob marked "Ohms Adjust" rotated until the meter needle is directly over the scale divisional line marked "0" at the right hand extremity of the Ohms scale.
After a lengthy period of use it will he found that the "Ohms Adjust" control will not bring the meter needle to the "0" setting When such a condition arises it will he necessary to replace the batteries which are located under the panel. When replacing make sure that the batteries are connected for correct polarity.
Whilst making a resistor test never hold the test prods by the metal points as incorrect readings will result due to body leakage. This error can assume quite serious proportions when high resistor values are being checked. Always hold the prods by the insulated sleeve. When the ohms scale is not being used always place the ohms selector switch in the "Off" position.
The sockets marked "E" on the analyser are common with No. 1 socket at the bottom of the panel and can be considered is the common negative when the extension cable is being used.
As a warning it might be stated that although the meter movement is of robust design it must of necessity be very delicately suspended. It rests with the operator to use every care when using the instrument.
Always double check all connections and switch settings before applying the test. Should a high voltage be accidentally applied with the Range Switch in the milliamp position a dislocated needle movement or a complete burn out may ensue. Always be certain that the meter range used is adequate to accommodate the voltage or current that may exist. BE CAREFUL!
Instructions for using Set Analyser Model 485
The "Velco" 485 Analyser has been designed with the object in view of providing an efficient and reliable means of servicing all types of Radio Receivers and Public Ad-dress Systems. The following instructions should be carefully studied before attempting to use the Analyser, as a complete knowledge of the instrument will expedite the location of whatever fault happens to exist in the apparatus to be tested.
A power pack is built into the Analyser to enable the measurement of Impedance, Capacity, Inductance, High D.C. Resistance and leakage of Electrolytic Condensers.
Before attempting these measurements it is necessary to insert the power cord attached to the Analyser into a 200 or 230 volt 50 cycle A.C. supply.
To carry out "Direct Current Volts" Readings insert the test prods into the two sockets marked "Volts" at the lower left of Analyser panel. Set the "Test Selector" knob to the D.C.V. position, then choosing the correct "Range Selector" position for the voltage under test. If the test prods are now applied to the unknown voltage its value can be read from the top meter D.C. scale. If there is any doubt as to the voltage to be measured always commence the test with the "Range Selector" switch on the highest voltage setting, thus protecting the meter from overload.
To obtain D.C. milliamp readings place the "Test Selector" switch in the D.C.M.A. position, choosing a "Range Selector" position suitable for the amount of current in the circuit to be tested. If the operator has no idea of the current value existing, the "Range Selector" should be placed in the highest milliamp setting working down to lower values as desired. The test prods should be inserted in the sockets marked "milliamps" at the lower Right of p...
ciasteczkowypotwornie