FG504: Difference between revisions

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|function=40 MHz function generator
|function=40 MHz function generator
|class=function generator
|class=function generator
|image=Tek_fg504_1.jpg
|image=Tek FG504 front 1.jpg
|introduced=1976
|introduced=1976
|discontinued=1993
|discontinued=1993
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}}
}}
{{BeginSpecs}}
{{BeginSpecs}}
{{Spec | Frequency range  | Sine, Triangle and Square – 0.001 Hz to 40 MHz; Ramps, Pulses or asymmetric waveforms – 0.001 Hz to 4 MHz }}
{{Spec | Frequency range  | Sine, triangle and square – 0.001 Hz to 40 MHz; Ramps, pulses or asymmetric waveforms – 0.001 Hz to 4 MHz }}
{{Spec | Duty cycle        | 7% to 93% }}
{{Spec | Duty cycle        | 7% to 93% }}
{{Spec | Output amplitude  | 30 V<sub>p-p</sub> (OC), 15 V<sub>p-p</sub> (50 Ω) }}
{{Spec | Output amplitude  | 30 V<sub>p-p</sub> (OC), 15 V<sub>p-p</sub> (50 Ω) }}
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* [[Media:Tek fg5010 fg507 fg504 description.pdf|Tek FG5010 FG507 FG504 Description]]
* [[Media:Tek fg5010 fg507 fg504 description.pdf|Tek FG5010 FG507 FG504 Description]]
{{Documents|Link=FG504}}
{{Documents|Link=FG504}}
{{PatentLinks|FG504}}


==Rear Interface==
==Rear Interface==
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==Internals==
==Internals==
The FG504 takes +/– 33 V from the right slot to create a +/– 15 V supply, and the + 11.5 V for a +5 V supply.
The FG504 takes ±33 V from the right slot to create a ±15 V supply, and the +11.5 V for a +5 V supply.
It uses the 25 V<sub>AC</sub> windings, 17.5 V<sub>AC</sub>, and + 11.5 V on the left slot for a +/– 25 V supply to the output amplifier.
It uses the 25 V<sub>AC</sub> windings, 17.5 V<sub>AC</sub>, and +11.5 V from the left slot for a ±25 V supply to the output amplifier.
The regulators incorporate the mainframe pass transistors on both slots.
The regulators incorporate the mainframe pass transistors on both slots.


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'''External'''
'''External'''
<gallery>
<gallery>
Tek fg504 1.jpg
Tek FG504 front 1.jpg          | FG504 front panel
Tek fg504 2.png
Tek fg504 1.jpg                 |
Tek fg504 3.png
Tek fg504 2.png                 |
Tek-fg504-front.jpg | FG504 front panel
Tek fg504 3.png                 |
fg504-1.jpg | FG504 in mainframe
Tek-fg504-front.jpg             | FG504 front panel
Tek fg 504 95.jpg
fg504-1.jpg                     | FG504 in mainframe
Tek fg 504 96.jpg
Tek fg 504 95.jpg               |
Tek fg 504 97.jpg
Tek fg 504 96.jpg               |
Tek fg 504 98.jpg
Tek fg 504 97.jpg               |
Tek fg504 and ps503a.jpg|FG504 and [[PS503A]] in [[TM504]]
Tek fg 504 98.jpg               |
Tek fg 504 in tm502a front.jpg|FG504 in [[TM502A]]
Tek fg504 and ps503a.jpg       | FG504 and [[PS503A]] in [[TM504]]
Tek fg 504 in tm502a top.jpg|FG504 in [[TM502A]]
Tek fg 504 in tm502a front.jpg | FG504 in [[TM502A]]
Tek fg 504 in tm502a top.jpg   | FG504 in [[TM502A]]
</gallery>
</gallery>


'''Internal'''
'''Internal'''
<gallery>
<gallery>
fg504-2.jpg | FG504 without covers
Tek FG504 left.jpg              | FG504 left internal
fg504-3.jpg | Main board - output amplifier, attenuator, rise/fall time switch
Tek FG504 right.jpg            | FG504 right internal
fg504-4.jpg | Detail of output amplifier.  Trimmer capacitors for high frequency compensation.
fg504-2.jpg                     | FG504 without covers
fg504-5.jpg | Detail of 50 Ω attenuator. Divider networks (under the ceramic chips) are switched in or bypassed by cam switches. The 0.3 amp output fuse can also be seen.
fg504-3.jpg                     | Main board - output amplifier, attenuator, rise/fall time switch
fg504-6.jpg | Ceramic 10 dB divider lifted to show resistor network.  Laser trimming marks can be seen.
fg504-4.jpg                     | Detail of output amplifier.  Trimmer capacitors for high frequency compensation.
fg504-7.jpg | Function generator board that synthesizes the triangle and sine out of a square wave
fg504-5.jpg                     | Detail of 50 Ω attenuator. Divider networks (under the ceramic chips) are switched in or bypassed by cam switches. The 0.3 A output fuse can also be seen.
fg504-8.jpg | Timer board
fg504-6.jpg                     | Ceramic 10 dB divider lifted to show resistor network.  Laser trimming marks can be seen.
fg504-9.jpg | Circuit detail
fg504-7.jpg                     | Function generator board that synthesizes the triangle and sine out of a square wave
Tek fg504 left internal.jpg|FG504 left internal
fg504-8.jpg                     | Timer board
Tek fg504 left internal u.jpg|FG504 left internal upside down
fg504-9.jpg                     | Circuit detail
Tek fg504 right internal_u.jpg|FG504 right internal upside down
Tek fg504 left internal.jpg     | FG504 left internal
Tek fg504 right internal.jpg|FG504 right internal
Tek fg504 left internal u.jpg   | FG504 left internal upside down
Tek fg504 rear.jpg
Tek fg504 right internal_u.jpg | FG504 right internal upside down
Tek fg504 rear2.jpg
Tek fg504 right internal.jpg   | FG504 right internal
Tek fg504 rear.jpg             |
Tek fg504 rear2.jpg             |
</gallery>
</gallery>


'''Operation'''
'''Operation'''
<gallery>
<gallery>
Tek fg504 sine out.jpg|Sine out
Tek fg504 sine out.jpg         | Sine out
Tek fg504 square out.jpg|Square out
Tek fg504 square out.jpg       | Square out
Tek fg504 triag out.jpg|Triangle out
Tek fg504 triag out.jpg         | Triangle out
</gallery>
</gallery>


'''Schematics and Locations'''
'''Schematics and Locations'''
<gallery>
<gallery>
FG504_A1_Main_Board_Test_Point_Locations.png|A1 Main Board Test Point Locations
FG504 A1 Main Board Test Point Locations.png     | A1 (Main) board test point locations
FG504_A2_Function_Board_Test_Point_Locations.png|A2 Function Board Test Point Locations
FG504 A2 Function Board Test Point Locations.png | A2 (Function) board test point locations
FG504_A3_Loop_Board_Test_Point_Locations.png|FG504 A3 Loop Board Test Point Locations
FG504 A3 Loop Board Test Point Locations.png    | A3 (Loop) board Test point locations
</gallery>
</gallery>


==Components==
==Components==
{{Parts|FG504}}
{{Parts|FG504}}

Latest revision as of 00:19, 10 October 2024

Tektronix FG504
40 MHz function generator
Tektronix FG504

Produced from 1976 to 1993

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

The Tektronix FG504 is a 40 MHz function generator plug-in for the TM500 system.

Key Specifications

Frequency range Sine, triangle and square – 0.001 Hz to 40 MHz; Ramps, pulses or asymmetric waveforms – 0.001 Hz to 4 MHz
Duty cycle 7% to 93%
Output amplitude 30 Vp-p (OC), 15 Vp-p (50 Ω)
Output attenuator 0 to 50 dB in 10 dB steps
DC offset ±7.5 V (OC), ±3.75 V (50 Ω)
Distortion ≤ 0.5% from 20 Hz to 40 kHz
Rise/fall time 6 ns (fixed), 10 ns to 100 ms in 7 steps + variable control
Sweep 1000:1 (500:1 on 106 mult.)
AM input 10 Vp-p for 100%

Links

Documents Referencing FG504

Document Class Title Authors Year Links
070-2088-01.pdf Book TM500 Series Rear Interface Data Book 1976
Tekscope 1976 V8 N1.pdf Article New Products 1976
Tekscope 1976 V8 N2.pdf Article The FG504 - A New Standard in Function Generators Ira Pollock 1976
Tekscope 1977 V9 N2.pdf Article Measuring Harmonic Distortion with a Spectrum Analyzer Ken Matheson 1977
Tekscope 1978 V10 N2.pdf Article Pulse Generator or Function Generator - Making an Intelligent Choice Bill Rasnake 1978
070-2088-04.pdf Book TM500 Series Rear Interface Data Book 1985

Patents that may apply to FG504

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

Rear Interface

Right (as seen from the front, main board)

Pin Signal
28A Output (via 30 kΩ)
27A Output Common

Left (mechanically floating interface board)

Pin Signal Pin Signal
28B Trig Output Common 27A nc
27B Trig Output 27A GND
26B Phase Lock Error Voltage 26A Sweep Reset Output
25B Trig/Gate Common 25A Linear Sweep Output
24B Trig/Gate Input 24A nc

23B nc 23A AM Input
22B VCF Input Common 22A Sweep Trigger Input
21B VCF Input 21A nc

Internals

The FG504 takes ±33 V from the right slot to create a ±15 V supply, and the +11.5 V for a +5 V supply. It uses the 25 VAC windings, 17.5 VAC, and +11.5 V from the left slot for a ±25 V supply to the output amplifier. The regulators incorporate the mainframe pass transistors on both slots.

U770 is a 155-0032-00 below S/N B057720, a 155-0217-00 from B057720 on.

Pictures

External

Internal

Operation

Schematics and Locations

Components

Some Parts Used in the FG504

Part Part Number(s) Class Description Used in
155-0032-00 155-0032-00 155-0032-01 Monolithic integrated circuit variable-gain transconductance amplifier (voltage in, current out) 335 464 465 465B 466 475 475A 475M 634 650 651 652 653 655 656 670 671 7A12 475 FG504 1440 1460 1480 1481 1482 1485
155-0217-00 155-0216-00 155-0217-00 Monolithic integrated circuit variable-gain transconductance amplifier 335 475 7D20 FG504
CA3046 156-0048-00 Monolithic integrated circuit transistor array 4601 7104 7403N 7503 7B53A 7D12 DM502 FG504 S-52 Telequipment D34 7603 7613 7623 7633 FG507 Keithley 227