547: Difference between revisions

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==Pictures==
==Pictures==
===547===
<gallery>
<gallery>
Tek 547 1a2 new.jpg|547 with [[1A2]]
Tek 547 1a2 new.jpg|547 with [[1A2]]
Tek 547.jpg|Front view
Tek 547.jpg|Front view
Tek 547 eng.jpg|547 serial "ENG B 23"
Tek 547 eng2.jpg|547 serial "ENG B 23"
Tek_547_Delayed_Trigger1.JPG | Tek 547 Delayed Trigger & ALT Sweep
Tek_547_Delayed_Trigger2.jpg | Tek 547 Delayed Trigger & ALT Sweep
Tek 547 trace two sine.jpg|547 trace
Tek 547 1a1 front.jpg|547 with [[1A1]]
Tek_547_4-Trace.jpg | 547 with 1A2 in ALT Sweep Mode
Tek_547_Delayed_Trig.jpg | 547 Delayed Trace
Tek_547-Top.jpeg | Internals - Top
Tek_547-Top.jpeg | Internals - Top
Tek_547-RHS-TBOpen.jpeg | Internals - RHS
Tek_547-RHS-TBOpen.jpeg | Internals - RHS
Tek_547-RHS.jpeg | Internals - Time Base - RHS
Tek_547-RHS.jpeg | Internals - Time Base - RHS
 
Tek_547-Internal-LHS.jpeg | Internals - LHS
Tek_547-Internal-Bottom.jpeg | Internals - Bottom
Tek_547_HVSection-NoCover.jpg | Tek 547 HV Section and [[5642]]HV Rectifier Tube (Cover removed)
Tek_547-TunnelDiodes-Trigger.jpg | Tunnel Diodes TD253 and TD3A in a Tek 547 Trigger/ Sweep Section
Tunnel_DIode_1D2_2.2mA.jpg | 2.2 mA Tunnel Diode in 547 Delay Pickoff
Tek_547_Vert_Amp.jpg | Tek 547 Vertical Amplifier
547_01.JPG|Top
547_01.JPG|Top
547_02.JPG|Right
547_02.JPG|Right
547_03.JPG|Left
547_03.JPG|Left
Tek-547 vert amp2.png|Vertical amplifier
Tek-547-trigger a.png|Trigger A
Tek rm547.jpg|RM547
Tek 547 ampex front.jpg
Tek 547 ampex right internal.jpg
Tek 547 ampex left internal.jpg
Tek 547 ampex right external.jpg
Tek 547 ampex rear.jpg
Grey face 547.jpg|Gray 547
Tek rm547 trace.jpg
Tektronix rm547.jpg
Tek 547 rear close.jpg
Tek 547 rear close.jpg
Tek 547 eng.jpg|547 serial "ENG B 23"
Tek 547 eng2.jpg|547 serial "ENG B 23"
Tek 547 rear connections.jpg|rear connections
Tek 547 rear connections.jpg|rear connections
Tek_547_Vert_Amp.jpg | Tek 547 Vertical Amplifier
Tek_547_CRT1.jpg | Tek 547 CRT
Tek_547_CRT1.jpg | Tek 547 CRT
Tek_547_CRT2.jpg | Tek 547 CRT Side View
Tek_547_CRT2.jpg | Tek 547 CRT Side View
Tek_547_CRT_Def_Plates1.jpg | Tek 547 CRT Deflection Plates & Assembly
Tek_547_CRT_Def_Plates1.jpg | Tek 547 CRT Deflection Plates & Assembly
Tek_547_CRT_Def_Plates2.jpg | Tek 547 CRT Electron Gun Assembly
Tek_547_CRT_Def_Plates2.jpg | Tek 547 CRT Electron Gun Assembly
Tek_547_UnderChassis-No-Transformer.jpg | Tek 547 Underside of Chassis. Main Transformer is Not Present.
Tek_547_Chassis_Without_CRT.jpg | Tek 547 Chassis Without CRT and Plug in
Tek_547_Chassis_Without_CRT.jpg | Tek 547 Chassis Without CRT and Plug in
Tek_547_Screen.jpg |  Tek 547 Screen Scale  
Tek_547_Screen.jpg |  Tek 547 Screen Scale
Tek_547_Top.jpg | Tek 547 Top
Tek_547_HVSection-NoCover.jpg | Tek 547 HV Section and [[5642]]HV Rectifier Tube (Cover removed)
Tek_547_Power-Transformer3.jpg  | Tek 547 Main Transformer
Tek_547_Power-Transformer3.jpg  | Tek 547 Main Transformer
Tek_547_Power-Transformer2.jpg  | Tek 547 Main Transformer
Tek_547_Power-Transformer2.jpg  | Tek 547 Main Transformer
Tek_547_Power-Transformer1.jpg  | Tek 547 Main Transformer
Tek_547_Power-Transformer1.jpg  | Tek 547 Main Transformer
Tek_547_Tubes.jpg | Tek 547 Inside view with Power ON
Tek_547_Tubes.jpg | Tek 547 Inside view with Power ON
Tek_547-TunnelDiodes-Trigger.jpg | Tunnel Diodes TD253 and TD3A in a Tek 547 Trigger and Sweep Section
Tek_547_4-Trace.jpg | 547 with 1A2 in ALT Sweep Mode
Tek_547_Delayed_Trig.jpg | 547 Delayed Trace
Tek_547_Transformer.jpg | 547 LV Transformer Connections
Tek_547_Transformer.jpg | 547 LV Transformer Connections
Tunnel_DIode_1D2_2.2mA.jpg | 2.2 mA Tunnel Diode in 547 Delay Pickoff
Tek_547_Inside_Tubes.jpg | Inside a Tek 547
Tek_547_Inside_Tubes.jpg | Inside a Tek 547
Tek_547_Delayed_Trigger1.JPG | Tek 547 Delayed Trigger & ALT Sweep
Tek 547 ampex front.jpg
Tek_547_Delayed_Trigger2.jpg | Tek 547 Delayed Trigger & ALT Sweep
Tek 547 ampex right internal.jpg
Tek 547 trace two sine.jpg|547 trace
Tek 547 ampex left internal.jpg
Tek 547 1a1 front.jpg|547 with [[1A1]]
Tek 547 ampex right external.jpg
Tek 547 ampex rear.jpg
Grey face 547.jpg|Gray 547
</gallery>
=== RM 547===
<gallery>
Tek rm547.jpg|RM547
Tek rm547 trace.jpg
Tektronix rm547.jpg
</gallery>


=== Schematics ===
<gallery>
Tek-547-trigger a.png|Trigger A
Tek-547 vert amp2.png|Vertical amplifier
</gallery>
</gallery>
[[Category:500 series scopes]]
[[Category:500 series scopes]]

Revision as of 11:50, 5 April 2020

Manuals – Specifications – Links – Pictures

The Tektronix 547 is a 50 MHz scope that takes letter-series and 1-series plug-ins.

It has two identical timebases and, when used with the 1A1, 1A2, or 1A4, has the ability to display one input with one time scale and another input with a different time scale. The effect is similar to a dual-beam scope assuming that the input signals are repetitive. This "Sweep Switching" feature differentiates the 547 from the 546.

There is also a rackmount version, the RM547 or R547.

The project lead for the development of the Tektronix 544, 546, and 547 was Bob Rullman.

Key Specifications

Bandwidth DC to 50 MHz (−3 dB) with fast plug-ins (1A1, 1A2)
Rise time 7 ns with 1A1
Line voltage 90-136 V or 180-272 V, selected via primary voltage selector (inside cabinet) and voltage range selector (on rear panel), 50/60/400 Hz
Sweep Rates 100 ns/div to 5 s/div
Trigger Coupling AC, DC, AC LF Rej
External Horizontal Input 100 mV/cm to 10 V/cm, DC to 400 kHz
CRT T5470, 10 kV acceleration, 6x10 cm viewing area
Calibrator ~1 kHz, 200 μ Vp-p to 100 Vp-p
Power consumption 510 W
Cooling AC Fan

Internals

Triggering

Triggering is done with tunnel diodes. The 'A' trigger is based on a 10 mA tunnel diode. Up to serial number 11889, it uses a TD253. From 11890 onward, it uses a 152-0140-01.

CRT

The 547 uses the Tektronix 154-0478-00 CRT.

HV Transformer

A common problem with 547s is the HV transformer. Rather than potting the HV transformer in wax, as was done up to that point, the 547's HV transformer was potted in epoxy. Unfortunately, this epoxy turned out to absorb moisture over time, particularly when used in humid climates. The moisture causes increased losses in the transformer. Excessive losses require the regulator to drive the 6AU5 input oscillator tube (V800) harder. Eventually, the drive circuit cannot supply enough power to keep the supply in regulation. The usual solution is to scavenge a replacement transformer from another scope. As a labor of love, hobbyists have been known to rebuild the HV transformers. This is discussed from time to time on the groups.io (formerly Yahoo) TekScopes forum.

Vertical Amplifier

The 547 has a five-stage BJT vertical amplifier that is fully differential from the plug-in connector to the CRT vertical deflection plates. There is one tube in the vertical signal path, a 12AT7 acting as a unity-gain buffer between the plug-in connector and the vertical amplifier.

Spoiler Switch

The plug-in bay of the 547 has a "spoiler switch" that only enables the full bandwidth of the 547's vertical signal path when certain relatively modern plug-ins are used, such as the 1A1, 1A2, 1A4, 1L30, and 1L40. Those plug-ins have a small hole to the left of the plug-in to mainframe connector, so they can be fully inserted without pressing the spoiler switch.

Delay Line

There is a 170 nanosecond delay line between the first and second gain stages.

Power Supply

The 547's power supply provides regulated outputs of −150 V, +100 V, +225 V, +350 V, as well as a +325 V unregulated output for CRT HV section.

Multiple secondary windings feeds diodes for rectification for different voltages. Both center-tap and bridge configuration is used. Its a all Tube design for the regulation. There are multiple 6.3V secondary outputs for heaters, many elevated to different voltage levels based on the section/tube its used for to keep the Heater-Cathode voltage level within limits.

As is common in many Tektronix scopes, all regulated voltages are referred to the negative regulated rail (−150 V in this case) by fixed low-tolerance dividers. Only the −150 V voltage is trimmed, its reference is a OG3 VR tube. A 12AX7 is used as the comparator and two 6CW5 in parallel are used as series pass tubes. A 6AU6 is used as an error amplifier. Most other power supply sections in the 547 replicate the same basic design, except slight changes in tubes used − the +225 V and +100 V regulators employ a 6080 as the pass element, +350 uses a 6CW5.

The plate voltage delay circuit is similar to that found in many may other Teks of the same era. A 6N030 delay tube (P/N 148-0021-00) controls a relay that switches plate supply voltages on only after the tubes are warmed up. Heater voltage is applied to all tubes immediately when the power switch is turned on.

Links

Common Problems

Pictures

547

RM 547

Schematics