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{{Oscilloscope Sidebar |
{{Oscilloscope Sidebar  
title=Tektronix 507 |
|manufacturer=Tektronix
summary=Power Industry scope |
|series=
image=Tek 507 and ps.jpg |
|model=507  
caption=507 with Power Supply |
|summary=Power Industry scope  
introduced=1959 |
|image=Tek 507 front3.jpg
discontinued=1974 |
|caption=507  
manuals=
|introduced=1959  
* [http://w140.com/tek_507.pdf Tektronix 507 Manual (PDF)]
|discontinued=1974  
* [http://w140.com/w_d_bunting_reliable_spark_gap_for_capacitor_bank_switching.pdf W. D. Bunting, "A Reliable Spark Gap For Capacitor Bank Switching"]
|designers=Chuck Nolan;
* [http://w140.com/thomas_and_hearst-measurement_of_exploding_wire_energy.pdf Thomas and Hearst, "An Electronic Scheme for Measurement of Exploding Wire Energy"]
|manuals=
* [[Media:IM-507-1.pdf|Tektronix 507 Manual IM-507-1]] (OCR)
* [[Media:070-372.pdf|Tektronix 507 Manual 070-372]] needed
'''Articles'''
* [https://w140.com/w_d_bunting_reliable_spark_gap_for_capacitor_bank_switching.pdf W. D. Bunting, "A Reliable Spark Gap For Capacitor Bank Switching" (OCR)]
* [https://w140.com/thomas_and_hearst-measurement_of_exploding_wire_energy.pdf Thomas and Hearst, "An Electronic Scheme for Measurement of Exploding Wire Energy" (OCR)]
}}
}}
The '''Tektronix Type 507''' was designed for the power industry for surge testing.   
The '''Tektronix Type 507''' was designed for the power industry for surge testing.   
It was [[introduced in 1959]].
It was [[introduced in 1959]]. Development of the 507 was led by [[Chuck Nolan]].


The scope was intended to operate in an environment  
The scope was intended to operate in an environment of strong electromagnetic fields.   
of strong electromagnetic fields.   
It does not take plug-ins.  The power supply is external, like in the [[517]], [[551]], and [[555]].
It does not take plug-ins.  The power supply is external,  
like in the [[517]], [[551]], and [[555]].


The vertical signal path of the 507 does not contain amplifiers.  It has a
The vertical signal path of the 507 does not contain amplifiers.  It has a 5 nanosecond risetime.   
5 nanosecond risetime.  The input impedance of the 507 is 72 Ω.  The maximum  
The input impedance of the 507 is 72 Ω.  The maximum sensitivity is deliberately low, at 50 V/cm.   
sensitivity is deliberately low, at 50 V/cm.   


The input attenuator is very unusual for Tek scopes.
The input attenuator is very unusual for Tek scopes. It is a switch with ten positions in "% of signal", where each step is 10%.   
It is a switch with ten positions in "% of signal", where each step is 10%.  The deflection signal
The deflection signal is permanently AC-coupled and, unusually, the DC blocking capacitor is after the input attenuator.   
is permanently AC-coupled and, unusually, the DC blocking capacitor is after the input attenuator.   


The 507 has 20 kV of post-deflection acceleration, produced by four [[1X2]] tubes. The lower-voltage
The 507 has a total acceleration voltage of 24 kV, produced by four [[1X2]] tubes.
power supplies, located in the external box, are all tube except for [[selenium rectifiers]] for some
The lower-voltage power supplies, located in the external box, are all tube except for [[selenium rectifiers]] for some of the lower voltages.
of the lower voltages.
 
The 507 uses the [[T507]] CRT.


==Links==
==Links==
Line 37: Line 39:


<gallery>
<gallery>
File:Tek 507.jpg|507 on Cart
Tek 507 front.jpg|507
File:Tek 507 and ps.jpg|507 with Power Supply
507_w_cart.JPG |  507 with [[202]] cart
File:Tek 507 at general electric.jpg|507 at General Electric
Tek 507 front2.jpg|507
File:Tek 507 block diagram.png|Block Diagram
Tek 507 power supply front.jpg|507 power supply
File:Tek 507 sweep trigger and trip pulse.png|Sweep Trigger and Trip Pulse
Tek 507 ps bottom1.jpg|507 power supply bottom
File:Tek 507 time mark generator.png|Time Mark Generator
Tek 507 ps3.jpg|507 power supply
File:Tek 507 vertical deflection.png|Vertical Deflection
Tek 507 ps4.jpg|507 power supply
File:Tek 507 horizontal amp.png|Horizontal Amplifier
Tek 507 ps6.jpg|507 power supply
File:Tek 507 crt circuit.png|CRT Circuit
Tek 507 rear1.jpg|507 rear
File:Tek_507_heater_wiring.png|Heater Wiring
Tek 507 right internal1.jpg|507 right internal
File:Tek 507 power supply.png|Power Supply
Tek 507 right internal2.jpg|507 right internal
Tek 507 right top.jpg|507 top
Tek 507 bottom.jpg|507 bottom
Tek 507.jpg|507 on Cart
Tek 507 and ps.jpg|507 with Power Supply
Tek 507 at general electric.jpg|507 at General Electric
Tek 507 block diagram.png|Block Diagram
Tek 507 sweep trigger and trip pulse.png|Sweep Trigger and Trip Pulse
Tek 507 time mark generator.png|Time Mark Generator
Tek 507 vertical deflection.png|Vertical Deflection
Tek 507 horizontal amp.png|Horizontal Amplifier
Tek 507 crt circuit.png|CRT Circuit
Tek_507_heater_wiring.png|Heater Wiring
Tek 507 power supply.png|Power Supply
Tek 507 ps 1.jpg
Tek 507 ps 1.jpg
Tek 507 ps 2.jpg
Tek 507 ps 2.jpg
Line 60: Line 75:
Tek 507 ps 11.jpg
Tek 507 ps 11.jpg
Tek 507 ps 12.jpg
Tek 507 ps 12.jpg
Tek 507 and ps.jpg
Tek 507 attenuator 1.jpg|Input Attenuator. The two unconnected wires at the right side are the CRT vertical deflection plate connection.
Tek 507 attenuator 2.jpg|Input Attenuator. The thicker coax with the copper braid is the input signal. The thinner coax with the steel braid comes from the internal time mark generator.
</gallery>
</gallery>
{{Parts|507}}


[[Category:Monolithic tube scopes]]
[[Category:Monolithic tube scopes]]

Latest revision as of 04:27, 2 November 2022

Tektronix 507
Power Industry scope
507

Produced from 1959 to 1974

Manuals
Manuals – Specifications – Links – Pictures

The Tektronix Type 507 was designed for the power industry for surge testing. It was introduced in 1959. Development of the 507 was led by Chuck Nolan.

The scope was intended to operate in an environment of strong electromagnetic fields. It does not take plug-ins. The power supply is external, like in the 517, 551, and 555.

The vertical signal path of the 507 does not contain amplifiers. It has a 5 nanosecond risetime. The input impedance of the 507 is 72 Ω. The maximum sensitivity is deliberately low, at 50 V/cm.

The input attenuator is very unusual for Tek scopes. It is a switch with ten positions in "% of signal", where each step is 10%. The deflection signal is permanently AC-coupled and, unusually, the DC blocking capacitor is after the input attenuator.

The 507 has a total acceleration voltage of 24 kV, produced by four 1X2 tubes. The lower-voltage power supplies, located in the external box, are all tube except for selenium rectifiers for some of the lower voltages.

The 507 uses the T507 CRT.

Links

Pictures


Some Parts Used in the 507

Part Part Number(s) Class Description Used in
12AU7 154-041 154-0041-00 154-0287-00 Vacuum Tube (Dual Triode) dual medium-μ triode 104 104A 122 160 161 162 181 190 310 310A 316 317 3C66 502 502A 507 511A 512 516 517 517A 524 526 535 536 545 545A 545B 547 549 555 561 564 570 575 581 581A 585 585A C D E N Q Hickok 1825
1X2 154-0005-00 Vacuum Tube (Diode) high-voltage rectifier 420 507 565
6AQ5 154-017 154-0017-00 Vacuum Tube (Pentode) beam pentode 310 310A 316 360 507 511A 512 517 517A 524 536 570 575
6AU5 154-021 154-0021-00 Vacuum Tube (Pentode) 10 W beam power pentode 507 513 516 517 517A 531 535 541 535 545 547 581 581A 585 585A
6C4 154-029 154-0029-00 Vacuum Tube (Triode) VHF triode 190 3B2 507 511 511A 517 517A Chemtrix 205
T507 CRT 507