453: Difference between revisions
m (OCRd manuals) |
m (Manual change doc) |
||
Line 15: | Line 15: | ||
* [[Media:Tek_453_military_manual.pdf | Tektronix 453 Manual, Military Version]] | * [[Media:Tek_453_military_manual.pdf | Tektronix 453 Manual, Military Version]] | ||
* [[Media:070-1089-00.pdf | Tektronix 453A Manual]] | * [[Media:070-1089-00.pdf | Tektronix 453A Manual]] | ||
* [[Media:453A_Operators_handbook_1970_ocrd.pdf | Tektronix 453A Operators Handbook]] | * [[Media:453A_Operators_handbook_1970_ocrd.pdf | Tektronix 453A Operators Handbook]] | ||
* [[Media:Tek_453_irb.pdf | Tektronix 453 Instrument Reference Book]] | * [[Media:070-1089-00 M17637-OCR.pdf | Tektronix 453A Manual Change M17637]] | ||
* [[Media:Tek_453_irb.pdf | Tektronix 453 Instrument Reference Book]] | |||
<small> | <small> | ||
'''Modifications, Calibration''' | '''Modifications, Calibration''' |
Revision as of 01:35, 15 July 2023
The Tektronix 453 is a portable 50 MHz dual-trace oscilloscope introduced in 1965 and produced until the mid-1970's.
The main market driver for the 453 scope was IBM, who wanted a portable scope for Computer Field Engineers to use for working on mainframe computers. In addition, they had a requirement that the scope had to fit under an airline seat, another reason for its size and the front cover. One can even find 453's (and 465's/475's) with "IBM" screened on the front panel by Tek.
The 453 also marks the first time that any oscilloscope, (or perhaps any other piece of test equipment), had a lockable dual-duty tilt-bail carrying handle. Tek held a patent on that feature, as well as on some of the other ergonomics that made up the 400 series.
Key Specifications
Bandwidth | 52.5 MHz (20 mV/Div and up), 46.5 MHz @ 10 mV/Div, 41 MHz @ 5 mV/Div, 25 MHz @ 1 mV/Div (A-B cascaded); AC coupling LF limit 1.6 Hz |
---|---|
Rise time | 6.7 ns (20 mV/Div and up), 7.5 ns @ 10 mV/Div, 8.75 ns @ 5 mV/Div, 14 ns @ 1 mV/Div (A-B cascaded) |
Deflection | 5 mV/Div to 10 V/Div, 11 steps (1-2-5), variable ×2.5 (i.e. up to 25 V/Div); 1 mV/Div with cascaded channels A+B in 5 mV/Div setting |
Time base | 0.1 μs/Div to 5 s/Div, 24 steps (1-2-5) |
Input impedance | 1 MΩ // 20 pF |
Probes | Two P6010 3.5ft 10X Probes |
Power | 96-137 V / 192-274 V in 4 ranges, 45-440 Hz, 100 W |
Weight | 13.2 kg (29.1 lb) |
Environmental | Meets Mil-Std-202B. Will not fail if exposed to 30 g shock test, heavy humidity, ect. |
Internals
The 453 is almost entirely solid-state, even in its first version, except for the 5642 HV rectifiers and CRT. Early 453's (below serial number 20,000) used six 8393 Nuvistor triode tubes (two of them paired). The 453A, introduced in 1971, was fully transistorized, with extended bandwidth to 60 MHz, increased the graticule from 6 × 10 cm² to 8 × 10 cm², and introduced a mixed-sweep mode. Mixed-sweep mode starts the sweep at the "A" time/div rate and then, after a delay set by a ten-turn vernier dial, continues at the "B" sweep time/div rate.
There are two trigger/sweep units in a 453, thereby enabling delayed sweep mode. There are two delayed sweep modes: "B runs after A" and "B triggerable after A". The A and the B sweep triggering both use tunnel diodes, with a trigger preamplifier preceding the actual trigger circuit. The use of tunnel (Esaki) diodes gave the 453 triggering that is stable and useful to twice the oscilloscope's bandwidth.
The vertical amplifier that drives the CRT (T4533) deflection plates is a cascoded differential amplifier made of NPN transistors. Each horizontal deflection plate is driven by a common-emitter amplifier with feedback.
The 453 uses the 120-0360-00 HV transformer. Total CRT acceleration is 10 kV (cathode −2 kV, anode +8 kV).
A Tektronix 453 consumes 100 W power and weighs 29 pounds (13.2 kg). Part of the heft of this scope is due to its very sturdy aluminum frame and covers. The 453 came with a rigid metal front panel cover with locking latches that protected the scope while it is in transit. This cover has a compartment for storing probes and accessories.
Inside the 453, the electronics are rather densely packed in order for the scope to be compact. The top and bottom cover of the case separate easily using an ingenious thumb screw locking system - truly the only scope series that could be opened for service/calibration in a few seconds. Removing the rear cover exposes the remaining fuses and circuitry that rarely required access.
The 453A Mod 127C appears in the 1971 Television Products Catalog, with the description:
With the Mod 127C, and Internal TV Sync Separator circuit permits stable internal line or Field-rate triggering from displayed composite video or composite sync waveforms. External /10 trigger sources are replaced by Internal TV Sync positions providing Line sync pulses to the B Sweep circuit and either Field or Line sync pulses to the A sweep circuit.
The 453 has a 182 °F / 83 °C thermal cut-out switch.
Links
- Gale Morris on the history of the Tektronix 453 Oscilloscope (YouTube)
- Antique Radio Forum thread discussing Tek 453 HV transformer
- Paul Marossy's Tek 453 page (archived copy, original site down as of Feb 2015)
- US Government Accounting Office Purchasing Decision and Discussion of 453 Mod 703H (PDF)
- Reading Jim Williams blog: Scope Sunday #3 - Tek 453 story
- Bill's Tektronix 453 and 454 Info Pages (defunct, link via Internet Archive)
Pictures
-
-
-
-
-
-
-
-
453A-4, simpler version of 453A
-
453A-4
-
453
-
The Tektronix 453 has a thin bright trace.
-
453A-3
-
453A-1
-
-
453 on Model 3 Cart
-
453 on Model 3 Cart
-
453 on Model 3 Cart
-
453 on Model 3 Cart
-
453 on Model 3 Cart
-
453 with camera mount
-
453A-2
-
-
-
-
Components
Some Parts Used in the 453
Part | Part Number(s) | Class | Description | Used in |
---|---|---|---|---|
1N3717 | 152-0381-00 • 152-0125-00 | Discrete component | 4.7 mA, 25 pF tunnel diode | 1L40 • 1S1 • 1S2 • 11B1 • 11B2 • 11B2A • 147A • 1470 • 148 • 21A • 22A • 3B4 • 3B5 • 408 • 432 • 434 • 453 • 453A • 454 • 466 • 491 • 5T3 • 544 • RM544 • 546 • RM546 • 547 • RM547 • 556 • RM556 • 7B70 • 7B71 • 7D11 |
5642 | 154-0051-00 • 154-0079-00 | Vacuum Tube (Diode) | directly-heated high-voltage rectifier | 310 • 310A • 316 • 317 • 360 • 453 • 502 • 502A • 503 • 504 • 506 • 513 • 515 • 516 • 524 • 529 • RM529 • 533 • 533A • 535 • 536 • 543 • 543A • 543B • 545 • 545A • 545B • 547 • 551 • 555 • 556 • 560 • 561 • 561A • 561S • 564 • 567 • 570 • 575 • 581 • 581A • 585 • 585A • 647 • 647A |
8393 | 154-0461-00 | Vacuum Tube (Triode) | Nuvistor triode | 453 • 454 • 1A6 • 1A7 • 503 |
STD704 | 152-0125-00 | Discrete component | 4.7 mA tunnel diode | 1L40 • 1S1 • 11B1 • 11B2 • 11B2A • 147 • R147 • 147A • R147A • 1470 • 148 • R148 • 148-M • 149 • R149 • 149A • R149A • 21A • 22A • 3B4 • 3B5 • 408 • 432 • 434 • 453 • 453A • 454 • 464 • 465 • 466 • 491 • 5T3 • 544 • RM544 • 546 • RM546 • 547 • RM547 • 556 • RM556 • 7B70 • 7B71 • 7D11 |
T4530 | 154-0492-04 • 154-0566-00 | CRT | CRT | 453 |
Some Parts Used in the 453A
Part | Part Number(s) | Class | Description | Used in |
---|---|---|---|---|
1N3717 | 152-0381-00 • 152-0125-00 | Discrete component | 4.7 mA, 25 pF tunnel diode | 1L40 • 1S1 • 1S2 • 11B1 • 11B2 • 11B2A • 147A • 1470 • 148 • 21A • 22A • 3B4 • 3B5 • 408 • 432 • 434 • 453 • 453A • 454 • 466 • 491 • 5T3 • 544 • RM544 • 546 • RM546 • 547 • RM547 • 556 • RM556 • 7B70 • 7B71 • 7D11 |
STD704 | 152-0125-00 | Discrete component | 4.7 mA tunnel diode | 1L40 • 1S1 • 11B1 • 11B2 • 11B2A • 147 • R147 • 147A • R147A • 1470 • 148 • R148 • 148-M • 149 • R149 • 149A • R149A • 21A • 22A • 3B4 • 3B5 • 408 • 432 • 434 • 453 • 453A • 454 • 464 • 465 • 466 • 491 • 5T3 • 544 • RM544 • 546 • RM546 • 547 • RM547 • 556 • RM556 • 7B70 • 7B71 • 7D11 |
T4533 | 154-0630-00 • 154-0630-05 • 154-0630-07 • 154-0630-08 • 154-0630-09 • 154-0630-10 | CRT | CRT | 453A |