P7001: Difference between revisions

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(some more layout changes / added section about power supply)
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Core20.jpg|Core closeup
Core20.jpg|Core closeup
Core17.jpg|Core closeup
Core17.jpg|Core closeup
P7001 CORE DETAIL01.JPG|High Resolution view of partial core module
P7001 CORE DETAIL01.JPG|High Resolution view of partial core module. For comparison: One core has a dimension of 20mil (0.02" / ~0.5mm)
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'''Semiconductor memory (optional)'''
'''Semiconductor memory (optional)'''
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* [[Media:Tek_P7001_Catalog_1980.pdf|P7001 Spec 1980]]
* [[Media:Tek_P7001_Catalog_1980.pdf|P7001 Spec 1980]]
* [[Media:Tek_P7001_Catalog_1981.pdf|P7001 Spec 1981]]
* [[Media:Tek_P7001_Catalog_1981.pdf|P7001 Spec 1981]]
* [[Media:Tek_P7001_MPI_1986.pdf|Partial Master Publication Index with all DPO related pages]]
* [[Media:Tek_P7001-1973-Advertising.pdf|Typical DPO advertising in 1973]]
* [[Media:Tek_P7001-1973-Advertising.pdf|Typical DPO advertising in 1973]]
* [[Media:Tek_P7001_advertising_1977.pdf|Typical DPO advertising in 1977]]
* [[Media:Tek_P7001_advertising_1977.pdf|Typical DPO advertising in 1977]]
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* [https://groups.io/g/TekScopes/topic/7654269 Thread on P7001 and interfaces]
* [https://groups.io/g/TekScopes/topic/7654269 Thread on P7001 and interfaces]
* [https://vintagetek.org/wp-content/uploads/2018/11/IEEENAB1973_TW_03231973.pdf (PDF) Article on vintagetek.org about the IEEE Intercon 1973]
* [https://vintagetek.org/wp-content/uploads/2018/11/IEEENAB1973_TW_03231973.pdf (PDF) Article on vintagetek.org about the IEEE Intercon 1973]
 
* [https://aei.pitt.edu/83031/1/1974.11.pdf CAMAC bulletin Nov 1974 with description of the camac interface for Tektronix digitizers]


[[Category:7000 series scopes]]
[[Category:7000 series scopes]]
[[Category:Digital storage scopes]]
[[Category:Digital storage scopes]]
[[Category:GPIB interface]]
[[Category:GPIB interface]]

Revision as of 01:43, 18 August 2019

Manuals – Specifications – Links – Pictures


The Tektronix P7001 is a digitizer, processor, and memory for the 7704A oscilloscope. The P7001 can also be connected to an external computer which then is able to process the digitized signals. The complete system was called "Digital Processing Oscilloscope" or "DPO" for short and was presented to the public on 26 March 1973 at the IEEE Intercon in New York City.

The design of the P7001 assumes it will be part of a 7704A system, and that the 7704A will be displaying a steady trace. The vertical and horizonal plug-ins control the beam as they would in any 7000-series scope.

The P7001 periodically samples the horizontal and vertical signals simultaneously as they pass from the plug-ins to the vertical and horizontal amplifiers. This allows it to fill its memory with data points represented as coordinate pairs, (x1,y1), (x2,y2), (x3,y3), etc. It is not necessary that x2 be greater than x1, i.e. the samples can be taken out-of-order with respect to their equivalent time in the waveform.

Key Specifications

Bandwith 175 MHz
Resolution 10 bit (V), 9 bit (H)
Memory four waveforms, 512 samples each (4K × 10 bit core, or multiple 1k × 10 bit or 2k × 10 bit RAM boards)
Sampling rate 150 kHz ±30 kHz
Single shot performance 500 μs/Div
External interface 16 bit parallel, proprietary "CP bus" (dual 37-pin Sub-D connectors) interfacing with Tektronix CP-1100 or CP-4100 series controllers

Internals

The signal coming from the acquisition unit enters a fast four-diode sample and hold circuit where it is sampled at 150 ksamples/sec. Each sample is digitized using a successive-approximation scheme. The analog to digital converter is made of several chips: a digital to analog converter, a comparator, and control logic.

The P7001 has its own power supply built into it, independent of the power supply in the acquisition unit of the 7704A.

The Acquisition Unit of the 7704A, the P7001 Processor, and the Display Unit of the 7704A are connected by the Acquisition-Processor-Display (APD) Interface.

Asynchronus Bus

To provide maximum flexibility all P7001 circuit cards are connected over an 16 bit asynchronous bus with 13 address lines. The bus is mostly implemented as etched lines on the Main Interface Board. Only some High speed signals are sent through coaxial cables that connect to the cards using Peltola connectors. A serially connected line, or daisy chain, in the bus establishes device priority. This signal is called "Data Channel Grant Line". Each card has a specific location in the DPO. The position determines the priority that each card has in the use of the address and data buses. Unused slots must be fitted with a jumper card to close the daisy chain.

Front Panel & Z-Axis boards

The Front Panel board contains coding and debouncing logic for the 28 pushbuttons and driver logic for the 15 status indicators. The Z-Axis/Front panel card contains circuits for system control and the P7001 status latches. Bus termination, Z-Axis switching circuits and Z Axis Valid sensing are also located on this card. Eighteen of the front-panel buttons are used to communicate with the computer. The SEND and RECEIVE buttons direct the computer to transfer waveforms. The 16 Program call buttons on the right side of the front panel are used to execute user-definable programs on the computer.

Memory

Several types of memory configurations were available: 1k, 2k, 3k or 4k semiconductor memory and also 4k non-volatile core memory. All configurations were available through the whole lifecycle of the P7001. The memory serves to store the acquired waveforms and their associated scale factors. It also stores the computer output for display. Depending on the configuration the following storing capabilites are available:

Configuration Waveforms Readout
Scale factors
Messages
1k with readout 1 1 3
1k no readout(*) 2 0 0
2k with readout 2 2 4
2k no readout(*) 4 0 0
3k 4 1 4
4k 4 4 12

* Removing the Readout-Interface card doubles the space for storing waveforms but eliminates the capability of displaying text information.

Readout Interface

There are two readout devices in the DPO. One is the readout board in the acquisition unit of the 7704A and the other is the readout interface card in the P7001. In the modes "PLUG-INS" or "STORE" all readout information displayed on the CRT come directly from the plugins. In "STORE" mode the readout interface digitizes these information, converts them to ASCII-data and stores it in memory. In the modes "BOTH" or "MEMORY" the readout interface converts the ASCII data back to readout information and displays them on the CRT.

Display Generator

The Display Generator card generates the CRT display of either real-time computer output (XY mode) or data stored in the processsors memory (XT mode). Any combination of the stored and acquired waveforms may be displayed simultaneously. Also, since the display generator operates independent of other devices, changing data may be viewed during a store operation. The Display Generator card has a set of jumpers which switch the CRT output between vector and dot display.

Sample & Hold

The functionality of the Sample & Hold card can be divided into 3 areas: Display switching, sampling and multiplexing. The display switching section determines which waveform (real time or stored) is sent to the CRT and is designed around two Tek-made analog multiplexer chips 155-0022-00. A fast four-diode sample and hold circuit is the heart of the sampling circuit. Regardless of sweep speed, the sample & Hold card takes a sample every 6.5us. At first the vertical axis is sampled, 95 nanoseconds later the horizontal axis and the blanking. In the last stage the sampled signals are time-multiplexed to provide one output to the A/D converter. The complete timing of the sample & hold circuits is controlled by the A/D Converter card.

A/D Converter

The A/D Converter uses a successive approximation technique to digitize the vertical and horizontal samples. The vertical resolution is 10 bits, the horizontal resolution 9 bits. It is worth mentioning that the vertical signal is digitized in a range of 10 divisions. As a result, even signal components that are slightly above or below the screen edge are captured. A two bit memory location code (A, B, C or D) is added to the converted horizontal data. The result is the direct memory address at which the vertical data is stored to. For sweeps slower or equal to 500 μs/Div all 512 waveform points are digitized in one sweep. For faster sweep speeds the samples will be taken out-of-order with respect to their equivalent time in the waveform. In this case subsequent sweeps are needed complete the digitized data. The computer has direct access to the register of the A/D converter and may at any time read the last vertical sample. This makes it possible to create arrays with more than 512 elements.

Hardware Signal Averager

For DPOs which are connected via the fast CP bus, it is no problem to transfer several data sets over the interface and then have the computer calculate the averaged waveform. But with the relatively slow interfaces like GPIB this procedure is impractical. The optional HSA card solves this problem by locally computing the averaged waveform of up to 4096 single waveforms. The HSA card also has the ability to calculate the histogram of a waveform. The histogram will be displayed horizontally at the lower third of the CRT.

External Interfaces

The external interface card provides a bilateral link between the P7001 and an external controller. The controller has full access to all programmable functions in the Processor, and the P7001, in turn, may interrupt the controller at any time. During the production time of the P7001, the following interfaces were gradually developed:

Description Part Number Manual
DPO to Data General Nova 021-0113-00 070-1776-00.pdf
DPO to APD (CP Bus) 021-0116-00 070-1654-00.pdf
DPO to CP1100 (CP Bus) 021-0117-00 070-1654-01.pdf
DPO to TEK31 calculator 021-0127-00 070-1777-00.pdf
DPO to CAMAC 021-0146-00
DPO to 4010 Family 021-0175-00 070-1936-00.pdf
DPO to GPIB 021-0206-00 070-2623-00.pdf

Power Supply

The power supply in the P7001 is a reduced version of the power supply in the 7704A. Both power supplies are connected together using a relay in a master-slave configuration.

Pictures

Internal

Keyboard overlay cards

External Interfaces (optional)

Sample and Hold Card

Core Memory (optional)

Semiconductor memory (optional)

ADC and Display

Hardware signal Averager (HSA)

Schematics

Cofigurations

Workflow with connected Controller

X/Y Mode for external Controller

Design Team
Notable Members of the Design Team were Hiro Moriyasu, Bruce Hamilton, Luis Navarro, Bob Shand and Jack Gilmore.

Catalogs & Advertising

Firmware (uploaded BIN files)

Links