Teledyne 2002 instruction manual Rear Panel Description, Remote Zero Input, Analog Output

Page 14

4. Rear Panel Description

A schematic of the rear panel of the Model 2002 control unit is shown in Figure 4.2 ( Rear Panel Figure). The transducer is connected to the control unit via an female 9-pin “D” connector on the rear panel. An I/O cable can be connected via a male 9-pin “D” connector on the rear panel. The I/O cable provides an analog output signal, a remote zero input capability, high and low alarm TTL outputs, and a + 5 VDC Power Supply Output. The I/O cable also provides an analog ground and a digital common.

4.1.Remote Zero Input

The Model 2002 can be zeroed remotely via the I/O cable using the remote zero input line. Upon setting this line to TTL low level, the instrument will set its current pressure reading to zero. A common application of this feature is to utilize a process control output from a high vacuum gauge (for example an ion gauge controller) to automatically zero the Model 2002 whenever the pressure is below the low 10-5 Torr range. A Digital Common is provided on pin # 5 which can be used with relay contacts or switch contacts to remotely zero the instrument.

4.2.Analog Output

The Model 2002 provides an analog voltage output signal (0.5 VDC linear per decade) for process control and for pressure monitoring. A plot of the analog output signal as a function of pressure is shown in Figure

4.1. Note that the output voltage is directly proportional to the pressure over each complete decade (see detailed region in Figure 4.1) and that each decade has a different linear slope.

If the analog output voltage is being used in a data acquisition system, the following formulas can be used to calculate pressure.

Above an indicated pressure of 103 Torr, the analog output signal will be +5 VDC. Below the minimal displayable pressure of 1 x 10-4 Torr, the analog output will be 1.0 VDC.

V= (EXP = 6) = (MANT −1)

2 18

The analog output voltage is given by the following equation:

Where EXP is equal to the exponent of the displayed pressure.

EXP=.2

MANT=1.53

V= (− 2 + 6) + (1.53 −1)

2 18

=2 + 0.294

[= 2.0294VDC]

Example: P=1.53x10-2

EXP=.2

MANT=9.87

V= (− 2 + 6) + (9.87 − 1)

2 18

=4 + 0.4928

[= 4.4928VDC]

Model 2002 Vacuum Gauge

Page 14 of 37

Image 14
Contents Teledyne Hastings Manual Print History Table of Contents Model 2002 Sensors FeaturesGeneral Information Model 2002 Control UnitSpecifications Receiving Inspection InstallationTransducer Installation Quick StartPanel Mount Instructions Control Unit InstallationInitial Operation Transducer Cable AttachmentFront Panel Operation Overall Functional DescriptionScientific Notation RUN ModeSpeed Adjust Normal OperationCAL Mode High and Low Set Point ModesPage Atmosphere Coefficient Adjustment GAS ModeMidrange Coefficient Adjustment Units Mode Default Calibration RestorationAnalog Output Rear Panel DescriptionRemote Zero Input Voltage to pressure conversion example Model Rear Panel Detail Power Entry ModuleTTL Outputs Dual Sensor Emodiment Theory of OperationPiezoresistive Sensor = ΔRL Pirani Sensor Et = Es + Er + EgEg = Kg DT As/Dx Dual Sensor Operation RS-232-E Interface Specifications Communications Option BoardInterface Connector Pin Assignments for RS-485 For RS-485 Half Duplex 2 wireInterrogation Commands Parameter Modification CommandsCalibration Adjustment Commands Reset / Restore Commands Device StatusRelay Interface Option Board Relay Board SpecificationsRelay Connector Pin Assignment 20 mA Interference Connector Pin Assignments MA Interface Option BoardOperation 0-10V Interface Connector Pin Assignmets 10V Interface Option Board= PTorr Channel1 Troubleshooting Guide Warranty Repair Policy Non-Warranty Repair PolicyDiagrams and Drawings Model 2002 Vacuum Gauge Model Outline Dimensions Model 2002 Vacuum Gauge Model 2002 Vacuum Gauge
Related manuals
Manual 54 pages 12.52 Kb Manual 38 pages 51.68 Kb

2002 specifications

Teledyne 2002 represents a significant advancement in the realm of sophisticated instrumentation and systems used across various industries. This innovative platform emerged as a versatile solution for a multitude of applications including environmental monitoring, industrial automation, and scientific research.

One of the most notable features of the Teledyne 2002 is its robust data analysis capability. Equipped with powerful processing units, it allows users to conduct real-time data analysis, ensuring accurate and timely results. This is particularly beneficial in fields where immediate decision-making is crucial, such as environmental assessments and industrial quality control.

The technology behind the Teledyne 2002 encompasses a variety of sensors and analytical instruments. Its modular design enables users to customize the system according to their specific needs, integrating various sensors such as gas analyzers, spectrometers, and temperature sensors. This flexibility makes the Teledyne 2002 applicable in diverse settings, from laboratory environments to rugged field conditions.

Another characteristic of the Teledyne 2002 is its user-friendly interface. The system is designed with an intuitive control panel and advanced software that provides comprehensive data visualization. This ease of use enhances productivity, allowing operators to facilitate complex analyses without extensive training.

Security and data integrity are also focal points of the Teledyne 2002. The system implements state-of-the-art encryption protocols to protect sensitive data. Moreover, it maintains compliance with industry standards, ensuring that the collected data is reliable and trustworthy.

In addition to its technological features, the Teledyne 2002 is built with durability in mind. The rugged construction allows it to withstand harsh environmental conditions, making it ideal for outdoor applications. Its compact design enables easy transportation, which is essential for fieldwork.

Moreover, the Teledyne 2002 includes connectivity options that facilitate seamless integration with existing systems. It can connect to cloud services, enabling remote monitoring and data storage. This feature not only enhances the functionality of the device but also allows for collaborative data sharing among teams.

Overall, the Teledyne 2002 symbolizes a convergence of advanced technology, user-centric design, and robust performance. With its extensive features and versatility, it stands out as a premier solution for professionals demanding precision and reliability in their analytical endeavors. Whether for environmental monitoring or industrial applications, the Teledyne 2002 is equipped to meet the challenges of modern data analysis.