PG505: Difference between revisions

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|mfg=Tektronix  
|mfg=Tektronix  
|type=PG505  
|type=PG505  
|function=1 Hz − 100 kHz high-voltage pulse generator  
|function=100 kHz, 80 V pulse generator  
|class=pulse generator  
|class=pulse generator  
|image=Tek_pg505_front1.jpg  
|image=Tek_pg505_front1.jpg  
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{{Spec | Period            | 10 μs to 100 ms in decade steps, one custom position (≥10 μs), variable control ×1 to ×10 }}
{{Spec | Period            | 10 μs to 100 ms in decade steps, one custom position (≥10 μs), variable control ×1 to ×10 }}
{{Spec | Pulse width        | 5 μs to 50 ms in decade steps, one custom position (≥5 μs), variable control ×1 to ×10 }}
{{Spec | Pulse width        | 5 μs to 50 ms in decade steps, one custom position (≥5 μs), variable control ×1 to ×10 }}
{{Spec | Rise/Fall times    | 1 ms to 1 μs in decade steps, variable control ×1 to ×20 }}
{{Spec | Rise/Fall times    | 1 μs to 1 ms in decade steps, variable control ×1 to ×20 }}
{{Spec | Amplitude          | ±4 to min. ±80 V from a 4 kΩ source, floating up to ±200 V to chassis ground (with grounding strap removed, see note) }}
{{Spec | Amplitude          | ±4 to min. ±80 V from a 4 kΩ source, floating up to ±200 V to chassis ground (with grounding strap removed, see note) }}
{{Spec | Duty cycle        | min. pulse width to 99% }}
{{Spec | Duty cycle        | min. pulse width to 99% }}
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==Operation==
==Operation==
The main controls are a pair of concentric switches for pulse period and pulse duration, with the latter mechanically limited to prevent the duration range to be set higher than the period range.
The main controls are a pair of concentric switches for pulse period and pulse duration, with the latter mechanically limited to prevent the duration range to be set higher than the period range.
When period and duration switches are in the same position and the variable controls set ×1 (ccw) the output runs at 50% duty cycle.


In the leftmost position of the duration switch, the output is locked in its "on" state so that the amplitude can be set conveniently with a DC voltmeter attached to the output.
In the leftmost position of the duration switch, the output is locked in its "on" state so that the amplitude can be set conveniently with a DC voltmeter attached to the output.
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When the ramp reaches the threshold, an output pulse of the set duration is triggered.
When the ramp reaches the threshold, an output pulse of the set duration is triggered.


When the duration switch is put in the rightmost position (which mechanically forces the period switch to the same), both the rate and duration generator circuits are disabled.
When the duration switch is put in the rightmost position as well (which mechanically forces the period switch to the same), both the rate and duration generator circuits are disabled.
In this "EXT DURATION" mode, the output simply follows the Delay/Ext Duration input  
In this "EXT DURATION" mode, the output simply follows the Delay/Ext Duration input as compared to the threshold set by the variable delay potentiometer (0−10 V).


==Rear Interface==
==Rear Interface==
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On the floating side, a Schmitt trigger section restores the square pulse, which steers the output of a pair of current sources via a diode bridge into one of four switch-selected capacitors to create the variable rise and fall time.
On the floating side, a Schmitt trigger section restores the square pulse, which steers the output of a pair of current sources via a diode bridge into one of four switch-selected capacitors to create the variable rise and fall time.
The output amplifier has a dual FET ([[2N3958]]) source follower input, with the switching threshold set by the Delay potentiometer.
The output amplifier has a dual FET ([[2N3958]]) source follower input.


Two half-wave rectifiers, fed by the series-connected floating 25 V mainframe transformer windings, produce an unregulated floating supply of about ±65 V, from which regulated +48 V, +20 V, –10 V, –10 V, –20 V, and –48 V are derived.  
Two half-wave rectifiers, fed by the series-connected floating 25 V mainframe transformer windings, produce an unregulated floating supply of about ±65 V, from which regulated +48 V, +20 V, –10 V, –10 V, –20 V, and –48 V are derived.  
Depending on the selected output polarity, either +48 or –48 (less an adjustable component) V is referenced to output ground.  The push-pull output stage therefore has about 96 V supply available.
Depending on the selected output polarity, either +48 V or –48 V (less an adjustable component) is referenced to output ground.  The push-pull output stage therefore has about 96 V supply available.
 
The output is short-circuit protected by a fixed 4 kΩ series resistor.
The output is short-circuit protected by a fixed 4 kΩ series resistor.



Latest revision as of 00:55, 6 October 2024

Tektronix PG505
100 kHz, 80 V pulse generator
Tektronix PG505

Produced from 1974 to 1983

Manuals
(All manuals in PDF format unless noted otherwise)
Manuals – Specifications – Links – Pictures

The Tektronix PG505 is a 100 kHz, 80 V pulse generator plug-in for the TM500 system.

The output section is isolated from chassis ground and can float up to ±200 V.

Key Specifications

Period 10 μs to 100 ms in decade steps, one custom position (≥10 μs), variable control ×1 to ×10
Pulse width 5 μs to 50 ms in decade steps, one custom position (≥5 μs), variable control ×1 to ×10
Rise/Fall times 1 μs to 1 ms in decade steps, variable control ×1 to ×20
Amplitude ±4 to min. ±80 V from a 4 kΩ source, floating up to ±200 V to chassis ground (with grounding strap removed, see note)
Duty cycle min. pulse width to 99%
Input Delay/Duration, 0 – 10 V into ≥10 kΩ
Gate input +5 V to inhibit free-running rate generator (rear interface only)
Trigger output min. +4 V into 10 kΩ / 3 V into 600 Ω, same duration as output

Links

Documents Referencing PG505

Document Class Title Authors Year Links
070-2088-00.pdf Book TM500 Series Rear Interface Data Book 1975
070-2088-01.pdf Book TM500 Series Rear Interface Data Book 1976
070-2088-04.pdf Book TM500 Series Rear Interface Data Book 1985

Patents that may apply to PG505

Page Title Inventors Filing date Grant date Links
Patent US 3562464A Cam actuated switch having movable and fixed contacts on circuit board Howard Vollum Willem H Verhoef Tony Sprando 1968-10-07 1971-02-09

Notes

  • Manual errata: In manual 070-1583-01, Fig. 4.3 Output Delay Range Check (p. 4-5), the PG 505 connections are drawn correctly but the connector labels are swapped – the left connector fed from the FG501A via the BNC "T" is the Delay/Duration input, not the output. In Table 5-2, Rear Connector Pin Assignments (p. 5-8), pin B7 is incorrectly labeled –33.5 V, it is the NPN pass transistor's collector.
  • The PG505 is shipped with the output connector ground connected to chassis ground through a removable ground strap. This must be cut/removed to float the output, in which case output common remains grounded through a 100 kΩ resistor (R545). The manual says this resistor may be removed too, but doing so will cause unspecified "degradation of performance".

Operation

The main controls are a pair of concentric switches for pulse period and pulse duration, with the latter mechanically limited to prevent the duration range to be set higher than the period range. When period and duration switches are in the same position and the variable controls set ×1 (ccw) the output runs at 50% duty cycle.

In the leftmost position of the duration switch, the output is locked in its "on" state so that the amplitude can be set conveniently with a DC voltmeter attached to the output.

The second-rightmost position of either switch is reserved for a custom period or duration that is defined by an optional, customer-installed capacitor for each. Two pairs of test point lugs on the circuit board (near the cam switch cover) are provided to install these capacitors.

In the rightmost position of the period switch ("OUTPUT DELAYED"), the rate generator is disabled. The signal on the Delay/Ext Duration input, assumed to be a positive-going 10 V ramp, is compared to the setting of the Output Delay potentiometer. When the ramp reaches the threshold, an output pulse of the set duration is triggered.

When the duration switch is put in the rightmost position as well (which mechanically forces the period switch to the same), both the rate and duration generator circuits are disabled. In this "EXT DURATION" mode, the output simply follows the Delay/Ext Duration input as compared to the threshold set by the variable delay potentiometer (0−10 V).

Rear Interface

  • B27: Trig Out (9A/9B ground)
  • B24: Ext Delay In (9A/9B ground)
  • B24: Ext Gate In (9A/9B ground)

Family key: Signal source (between pins 23 and 34)

Internals

The rate generator (free-running, discrete) and duration generator (a Fairchild 9601 TTL monoflop) are operating on the chassis-referenced power rails. A small toroidal transformer couples the generated pulse to the output section in the form of differentiated positive and negative pulses.

On the floating side, a Schmitt trigger section restores the square pulse, which steers the output of a pair of current sources via a diode bridge into one of four switch-selected capacitors to create the variable rise and fall time. The output amplifier has a dual FET (2N3958) source follower input.

Two half-wave rectifiers, fed by the series-connected floating 25 V mainframe transformer windings, produce an unregulated floating supply of about ±65 V, from which regulated +48 V, +20 V, –10 V, –10 V, –20 V, and –48 V are derived. Depending on the selected output polarity, either +48 V or –48 V (less an adjustable component) is referenced to output ground. The push-pull output stage therefore has about 96 V supply available.

The output is short-circuit protected by a fixed 4 kΩ series resistor.

Prices

Year 1974 1975 1980 1982
Catalog Price $265 $295 $550 $840
In 2024 Dollars $1,700 $1,700 $2,100 $2,700

Pictures

Examples

Components

Some Parts Used in the PG505

Part Part Number(s) Class Description Used in
2N3958 151-1054-00 151-1054-01 151-1054-02 Discrete component dual n-channel JFET FG503 MR501 M3 PG505 SC501 SC502 SC503 SG502 1450 1501 1502 1503 221 5A23N 5CT1N 577 603 603A 604 604A 605 606 606A 606B 607 607A 620 624 7CT1N 7D15 7D20 851