Teledyne T101 - Manuals

v WARRANTY WARRANTY POLICY (02024 F) Teledyne Advanced Pollution Instrumentation (TAPI), a business unit of Teledyne Instruments, Inc., provides that: Prior to shipment, TAPI equipment is thoroughly inspected and tested. Should equipment failure occur, TAPI assures its customers that prompt service ...

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vii ABOUT THIS MANUAL This T101 operation manual, PN 07266, is comprised of multiple documents in PDF format, as listed below. Part No. Rev Name/Description 07266 B Model T101 Operation Manual (this manual) 05492 D Menu Trees and Software Documentation (inserted as Appendix A of this manual) 07347 1...

ix TABLE OF CONTENTS 1. INTRODUCTION ......................................................................................................................... 19 1.1. Features ...............................................................................................................................

TABLE OF CONTENTS Teledyne API – T101 Operation Manual xiv 10.4.10.1. A to D Conversion ............................................................................................... 269 10.4.10.2. Sensor Inputs ..........................................................................................

Teledyne API – T101 Operation Manual TABLE OF CONTENTS xv LIST OF FIGURES Figure 3-1. Front Panel Layout ........................................................................................... 27 Figure 3-2. Display Screen and Touch Control ..........................................................

TABLE OF CONTENTS Teledyne API – T101 Operation Manual xvi Figure 10-8. Typical Flow Control Assembly with Critical Flow Orifice ..................................... 256 Figure 10-9. T101 Hydrocarbon Scrubber (Kicker) .............................................................. 257 Figure 10-10. ...

19 1. INTRODUCTION The Model T101 UV Fluorescence H 2 S Analyzer measures hydrogen sulfide in levels commonly required for Ambient Air monitoring. The analyzer converts sulfur gases to sulfur dioxide and measures the SO 2 concentrations using fluorescence technology. 1.1. FEATURES Some features of t...

Introduction Teledyne API – T101 Operation Manual 20 1.2. OPTIONS The options available for your analyzer are presented in Table 1-1 with name, option number, a description and/or comments, and if applicable, cross-references to technical details in this manual, such as setup and calibration. To ord...

Introduction Teledyne API – T101 Operation Manual 22 Option Option Number Description/Notes RS-232 Multidrop Enables communications between host computer and up to eight analyzers. 62 Multidrop card seated on the analyzer’s CPU card. Each instrument in the multidrop network requires this card and a ...

23 2. SPECIFICATIONS AND APPROVALS 2.1. SPECIFICATIONS Table 2-1. Model T101 Basic Unit Specifications PARAMETER DESCRIPTION Ranges H 2 S: Min 0-50 ppb Full scale; Max 0-10 ppm Full scale SO 2 : Up to 0-20 ppm Full scale (selectable, independent ranges and auto ranging supported) Measurement Units p...

Specifications and Approvals Teledyne API – T101 Operation Manual 24 PARAMETER DESCRIPTION Standard I/O 1 Ethernet: 10/100Base-T 2 RS-232 (300 – 115,200 baud) 2 USB device ports 8 opto-isolated digital status outputs 6 opto-isolated digital control inputs 4 analog outputs Optional I/O 1 USB com port...

25 3. GETTING STARTED 3.1. UNPACKING AND INITIAL SETUP CAUTION To avoid personal injury, always use two persons to lift and carry the Model T101. NO TE Remove dust plugs prior to operating instrument. It is recommended that you store shipping containers/materials, including shipping screws and dust ...

Getting Started Teledyne API – T101 Operation Manual 26 4. Inspect the interior of the instrument to make sure all circuit boards and other components are in good shape and properly seated. 5. Check the connectors of the various internal wiring harnesses and pneumatic hoses to make sure they are fir...

Teledyne API – T101 Operation Manual Getting Started 27 Figure 3-1. Front Panel Layout Figure 3-2. Display Screen and Touch Control CAUTION – Avoid Damaging Touchscreen Do not use hard-surfaced instruments such as pens to operate the touchscreen. 07266B DCN6485

Getting Started Teledyne API – T101 Operation Manual 28 The front panel liquid crystal display screen includes touch control. Upon analyzer start-up, the screen shows a splash screen and other initialization indicators before the main display appears, similar to Figure 3-2 above (may or may not disp...

Teledyne API – T101 Operation Manual Getting Started 29 Figure 3-3. Display/Touch Control Screen Mapped to Menu Charts 07266B DCN6485

Getting Started Teledyne API – T101 Operation Manual 30 3.2.2. REAR PANEL Figure 3-4. Rear Panel Layout 07266B DCN6485

Teledyne API – T101 Operation Manual Getting Started 31 Table 3-2. Rear Panel Description Component Function cooling fan Pulls ambient air into chassis through side vents and exhausts through rear. AC power connect or Connector for three-prong cord to apply AC power to the analyzer. CAUTION! The cor...

Getting Started Teledyne API – T101 Operation Manual 32 3.2.3. INTERNAL CHASSIS LAYOUT Figure 3-5. Internal Chassis Layout 07266B DCN6485

Teledyne API – T101 Operation Manual Getting Started 33 3.3. ELECTRICAL CONNECTIONS NOTE To maintain compliance with EMC standards, it is required that the cable length be no greater than 3 meters for all I/O connections, which include Analog In, Analog Out, Status Out, Control In, Ethernet/LAN, USB...

Getting Started Teledyne API – T101 Operation Manual 34 Table 3-3. Analog Input Pin Assignments PIN DESCRIPTION DAS PARAMETER 1 1 Analog input # 1 AIN 1 2 Analog input # 2 AIN 2 3 Analog input # 3 AIN 3 4 Analog input # 4 AIN 4 5 Analog input # 5 AIN 5 6 Analog input # 6 AIN 6 7 Analog input # 7 AIN...

Teledyne API – T101 Operation Manual Getting Started 35 Table 3-4. Analog Output Pin Assignmentss PIN ANALOG OUTPUT VOLTAGE OUTPUT CURRENT LOOP OPTION 1 V Out I Out + 2 A1 Ground I Out - 3 V Out I Out + 4 A2 Ground I Out - 5 Not Available I Out + 6 A3 Not Available I Out - 7 V Out Not Available 8 A4...

Getting Started Teledyne API – T101 Operation Manual 36 3.3.3. CONNECTING THE STATUS OUTPUTS The analyzer’s status outputs are accessed through a 12-pin connector on the analyzer’s rear panel labeled STATUS. They are used to interface with a device that accepts closed-contact digital inputs, such as...

Teledyne API – T101 Operation Manual Getting Started 37 Table 3-5. Status Output Signals REAR PANEL LABEL STATUS DEFINITION CONDITION 1 SYSTEM OK ON if no faults are present. 2 CONC VALID OFF any time the HOLD OFF feature is active, such as during calibration or when other faults exist possibly inva...

Getting Started Teledyne API – T101 Operation Manual 38 SP AN CAL ZERO CA L SP AN CAL ZERO CA L CONTROL IN A B C D E F U + CONTROL IN A B C D E F U + - + Local Power Connections External Power Connections 5 VDC Power Supply Figure 3-10. Control Input Connector Table 3-6. Control Input Signals INPUT ...

Teledyne API – T101 Operation Manual Getting Started 39 3.3.5. CONNECTING THE COMMUNICATIONS PORTS 3.3.5.1. Connecting the Serial Ports To utilize either of the analyzer’s two serial interfaces, refer to Sections 4.7 and 5 of this manual for instructions on configuration and usage. For RS-485 commun...

Getting Started Teledyne API – T101 Operation Manual 40 Table 3-7. Inlet / Outlet Connector Descriptions REAR PANEL LABEL FUNCTION SAMPLE Connects the sample gas to the analyzer. When operating the analyzer without zero span option, this is also the inlet for any calibration gases. EXHAUST Connects ...

Teledyne API – T101 Operation Manual Getting Started 41 V alve Ne edle v al v e to c ontrol fl ow Chassis S ample Ze ro Air Ex haus t S pan MODEL 701 Zer o A ir Gener at or V EN T C alibrated SO 2 or H 2 S GA S ( At span gas c oncentration) S our ce of S AMP LE Gas Removed durin g c alib rati on Fig...

Getting Started Teledyne API – T101 Operation Manual 42 PMT EXHA UST T HRO UG H O UT ER L AYER O F KI CK ER R E AC T IO N CE L L P U RG E FL O W SENSO R FL O W / PR ESSUR E SENSO R PCA SAMPLE FILTER I NST RUMENT C HASSI S EXH AUS T GAS O UT LET V ACU U M M ANI FO LD SAMPLE G AS IN LE T K IC KER EX H...

Teledyne API – T101 Operation Manual Getting Started 43 CAUTION The exhaust from the external pump needs to be vented outside the immediate area or shelter surrounding the instrument and conform to all safety requirements using a maximum of 10 meters of 1/4” PTFE tubing. 2. Attach the sample line to...

Getting Started Teledyne API – T101 Operation Manual 44 Table 3-9. NIST-SRM's Available for Traceability of H 2 S & SO 2 Calibration Gases NIST-SRM 4 TYPE NOMINAL CONCENTRATION 2730 2731 Hydrogen sulfide in N 2 Hydrogen sulfide in N 2 5000 ppb 20 ppm 1693a 1694a 1661a Sulfur dioxide in N 2 Sulfu...

Teledyne API – T101 Operation Manual Getting Started 45 3.4.1.1. Connections with Internal Valve Options Installed This section covers pneumatic connections for the optional valves, Z/S and IZS. External Zero Air Scrubber Filter MODEL 701 Zero Air Generator Source of SAMPLE Gas VENT if input is pres...

Getting Started Teledyne API – T101 Operation Manual 46 ZERO/SPAN (Z/S) VALVE GAS FLOW PMT EXH AUS T T O O UT ER L AYER O F KI CKER R E A C T IO N CE L L P U RG E FL O W SENSO R FL O W / PR ESSUR E S ENSO R P CA SAMPLE FILTER I NST RUMENT C HASSI S EX H AUS T GAS O UT LE T V A CUUM MAN IFO L D K IC ...

Teledyne API – T101 Operation Manual Getting Started 47 The state of the zero/span valves can also be controlled:  Manually from the analyzer’s front panel by using the SIGNAL I/O controls located under the DIAG Menu (Section 4.6.1),  By activating the instrument’s AutoCal feature (Section 4.4.2),...

Getting Started Teledyne API – T101 Operation Manual 48 Temperature of the H 2 S : Increasing the temperature of the increases the pressure inside the tube and therefore increases the effusion rate. Flow rate of the zero air : If the previous two variables are constant, the permeation rate of the ca...

Getting Started Teledyne API – T101 Operation Manual 50 The state of the IZS valves can also be controlled:  Manually from the analyzer’s front panel by using the SIGNAL I/O controls located under the DIAG Menu (Section 4.6.1),  By activating the instrument’s AutoCal feature (Section 6.9),  Remot...

Teledyne API – T101 Operation Manual Getting Started 51 Table 3-12. Possible Warning Messages at Start-Up WARNING MESSAGE MEANING ANALOG CAL WARNING The instrument’s A/D circuitry or one of its analog outputs is not calibrated. BOX TEMP WARNING The temperature inside the T101 chassis is outside the ...

Getting Started Teledyne API – T101 Operation Manual 52 3.5.4. FUNCTIONAL CHECK 1. After the analyzer’s components have warmed up for at least 30 minutes, verify that the software properly supports any hardware options that were installed. 2. Check to make sure that the analyzer is functioning withi...

Teledyne API – T101 Operation Manual Getting Started 53 3.6. INITIAL CALIBRATION 3.6.1. BASIC CALIBRATION PROCEDURE The following three-step procedure assumes that the instrument does not have any of the available zero/span (Z/S) or IZS valve options installed. Section 6 contains instructions for ca...

Getting Started Teledyne API – T101 Operation Manual 54 STEP TWO: Set the expected H 2 S span gas concentration. This sequence causes the analyzer to prompt for the expected H 2 S span concentration. M- P CAL H2 S SPAN CONC: 450 .0 Conc 0 0 0 4 5 0 .0 ENTR EXIT M- P CAL RANGE = 500.000 PPB H2S =X.XX...

Teledyne API – T101 Operation Manual Getting Started 55 STEP THREE: Perform the zero/span calibration procedure: M- P CAL H2S STB=X.XXX PPB SO2 =X.XXX < TST TST > ENTR CONC EXIT M- P CAL H2S STB=X.XXX PPB SO2 =X.XXX < TST TST > CAL SETUP M- P CAL H2 S STB=X.XXX PPB SO2 =X.XXX < TST TS...

Getting Started Teledyne API – T101 Operation Manual 56 3.6.2. INTERFERENCES FOR H 2 S MEASUREMENTS It should be noted that the fluorescence method for detecting H 2 S is subject to interference from a number of sources. Since the T101 converts H 2 S into SO 2 and measures the UV fluorescence of the...

57 4. OPERATING INSTRUCTIONS The T101 is a micro-computer-controlled analyzer with a dynamic menu interface for easy and yet powerful and flexible operation. All major operations are controlled from the front panel touch screen control. To assist in navigating the system’s software, a series of menu...

Operating Instructions Teledyne API – T101 Operation Manual 58 MODE DESCRIPTION SETUP X.# 2 SETUP mode is being used to configure the analyzer. The gas measurement will continue during this process. SPAN CAL A 1 Unit is performing SPAN calibration initiated automatically by the analyzer’s AUTOCAL fe...

Operating Instructions Teledyne API – T101 Operation Manual 60 TEMP Converter Temperature H 2 S present in the sample gas into SO 2 . TEST 2 Test Signal 2 mV Signal of a user-defined test function on output channel A4. TIME Clock Time hh:mm:ss The current day time for DAS records and calibration eve...

Operating Instructions Teledyne API – T101 Operation Manual 62 To view and clear warning messages: S AMPLE HVPS W ARNING H2S = 0. 00 T EST CAL MSG CLR SETUP M ak e sure war ning messages are not due to real pr oblems. Press CLR to clear the current messag e. If more than one warnin g is active, the ...

Teledyne API – T101 Operation Manual Operating Instructions 63 The default status of the calibration password is OFF . To enable the calibration password press: SAMPLE ENTER SETUP PASS : 818 8 1 8 ENTR EXIT SAMPLE RANGE = 500.0 PPB H2S =X.XXX < TST TST > CAL SETUP SETUP X.X PRIMARY SETUP MENU ...

Operating Instructions Teledyne API – T101 Operation Manual 64 4.4. SETUP MODE The SETUP mode allows you to configure the analyzer’s hardware and software features, perform diagnostic procedures, gather information on the instrument’s performance and configure or access data from the internal data a...

Teledyne API – T101 Operation Manual Operating Instructions 65 NOTE If the analyzer beeps when you press the EXIT button, it means that you’ve made a change/entered a new value for a parameter but have not caused it to be accepted by pressing ENTR first. 4.4.1. SETUP – CFG: VIEWING THE ANALYZER’S CO...

Operating Instructions Teledyne API – T101 Operation Manual 66 4.4.2. SETUP – ACAL: AUTO CALIBRATION Used to set up and operate the internal valve options if installed. Section 6 provides details. 4.4.3. SETUP – DAS: DATA ACQUISITION Used to set up the data acquisition system and record data. 4.4.4....

Teledyne API – T101 Operation Manual Operating Instructions 67 AUTO mode, see section 4.4.4.6) or operate independently ( IND mode, see Section 4.4.4.5) The user may also select between a variety of reporting range spans as well: EXAMPLE: A1 OUTPUT: Output Signal = 0-5 VDC representing 0-1000 ppm co...

Operating Instructions Teledyne API – T101 Operation Manual 68 4.4.4.3. Reporting Range Modes The T101 provides three analog output range modes to choose from. The actual signals output on the two analog signal channels depends on whether or not the analyzer includes a SO 2 /H 2 S multigas measureme...

Teledyne API – T101 Operation Manual Operating Instructions 69 4.4.4.4. Single Range Mode (SNGL) The default range mode for the analyzer is single range, in which all analog concentration outputs are set to the same reporting range. This reporting range can be set to any value between 5.0 ppb and 20...

Operating Instructions Teledyne API – T101 Operation Manual 70 4.4.4.5. Independent Range Mode (IND) Selecting independent range mode allows the A1 and A2 outputs to be configured with different measurement ranges. The analyzer software calls these two ranges LOW and HIGH . The LOW range setting cor...

Operating Instructions Teledyne API – T101 Operation Manual 72 NOTE On analyzers with the multigas option activated (see Section s 4.5.1 and 6.8) the concentration value will switch back and forth between from “H2S=XXX.X” to “SO2=XXX.X” depending on which gas is currently being measured. Also, The a...

Teledyne API – T101 Operation Manual Operating Instructions 73 4.4.4.8. Dilution Ratio The dilution ratio is a software option that allows the user to compensate for any dilution of the sample gas before it enters the sample inlet. 1. Select reporting range units: Follow the procedure in Section 4.4...

Operating Instructions Teledyne API – T101 Operation Manual 74 4.4.5. SETUP – PASS: PASSWORD PROTECTION The menu system provides password protection of the calibration and setup functions to prevent unauthorized adjustments. When the passwords have been enabled in the PASS menu item, the system will...

Teledyne API – T101 Operation Manual Operating Instructions 75 4.4.6. SETUP – CLK: SETTING THE INTERNAL TIME-OF-DAY CLOCK The T101 has a built-in clock for the AutoCal timer, Time TEST function, and time stamps on COM port messages and DAS data entries. To set the time-of-day, press: SET UP X.X TIM ...

Operating Instructions Teledyne API – T101 Operation Manual 76 In order to compensate for CPU clocks which run fast or slow, there is a variable to speed up or slow down the clock by a fixed amount every day. To change this variable, press: SAMPLE RANGE = 500.0 PPB H2S =XXX.X < TST TST > CAL S...

Teledyne API – T101 Operation Manual Operating Instructions 77 4.5. SETUP – VARS: USING THE INTERNAL VARIABLES The T101 has several-user adjustable software variables, which define certain operational parameters. Usually, these variables are automatically set by the instrument’s firmware, but can be...

Operating Instructions Teledyne API – T101 Operation Manual 80 4.5.1. SETTING THE GAS MEASUREMENT MODE If the switching valves software is activated, the T101 can be set to one of three gas measurement modes:  H 2 S The sample gas stream is stripped of any ambient SO 2 by a special chemical scrubbe...

Teledyne API – T101 Operation Manual Operating Instructions 81 4.6. SETUP – DIAG: USING THE DIAGNOSTICS FUNCTIONS A series of diagnostic tools is grouped together under the SETUP  MORE  DIAG menu. As these parameters are dependent on firmware revision (see Menu Tree A-5 in Appendix A). The individ...

Operating Instructions Teledyne API – T101 Operation Manual 82 To access the DIAG functions press the following buttons: SAMPLE ENTER SETUP PASS : 818 8 1 8 ENTR EXIT SETUP X.X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SETUP X.X SECOND ARY SETUP MENU COMM VARS DIAG EXIT SAMPLE RANGE = 500.0...

Operating Instructions Teledyne API – T101 Operation Manual 84 4.6.2. ANALOG OUTPUT STEP TEST This test can be used to check the accuracy and proper operation of the analog outputs. The test forces all four analog output channels to produce signals ranging from 0% to 100% of the full scale range in ...

Teledyne API – T101 Operation Manual Operating Instructions 85 4.6.3. ANALOG I/O CONFIGURATION Table 4-8 lists the analog I/O functions that are available in the T101. Table 4-9. DIAG - Analog I/O Functions SUB MENU FUNCTION AOUTS CALIBRATED: Shows the status of the analog output calibration (YES/NO...

Operating Instructions Teledyne API – T101 Operation Manual 86 The following DC current output limits apply to the current loop modules: Table 4-11. Analog Output Current Loop Range RANGE MINIMUM OUTPUT MAXIMUM OUTPUT 0-20 mA 0 mA 20 mA These are the physical limits of the current loop modules, typi...

Teledyne API – T101 Operation Manual Operating Instructions 87 4.6.3.1. Analog Output Signal Type and Range Span Selection To select an output signal type (DC Voltage or current) and level for one output channel, activate the ANALOG I/O CONFIGURATION MENU (see Section 4.6.3) then press: DIAG AIO CON...

Operating Instructions Teledyne API – T101 Operation Manual 88 4.6.3.2. Analog Output Calibration Mode Analog output calibration should be carried out on first startup of the analyzer (performed in the factory as part of the configuration process) or whenever recalibration is required. The analog ou...

Teledyne API – T101 Operation Manual Operating Instructions 89 To automatically calibrate an single analog channel, activate the ANALOG I/O CONFIGURATION MENU (see Section 4.6.3), then press: DIAG AIO CONC_OUT_2 C ALIBR ATED: NO <SET C AL EXIT DIAG AIO AU TO CALIBRATING CONC_OUT_2 DIAG AIO CONC_O...

Operating Instructions Teledyne API – T101 Operation Manual 90 To select manual output calibration for a particular channel, activate the ANALOG I/O CONFIGURATION MENU (see Section 4.6.3), then press: DIAG AIO AOUT AUTO CAL: ON ON ENTR EXIT Exi t to return to the main sam ple displ ay DIAG AN AL OG ...

Teledyne API – T101 Operation Manual Operating Instructions 91 V +DC Gnd V OUT + V OUT - V IN + V IN - Recording Device ANALYZER See Table 3-1 for pin assignments of Analog Out connector on the rear panel Figure 4-4. Setup for Calibrating Analog Outputs To make these adjustments, the AOUT auto-calib...

Operating Instructions Teledyne API – T101 Operation Manual 92 4.6.3.4. Analog Output Offset Adjustment Some analog signal recorders require that the zero signal is significantly different from the baseline of the recorder in order to record slightly negative readings from noise around the zero poin...

Teledyne API – T101 Operation Manual Operating Instructions 93 Similar to the voltage calibration, the software allows this current adjustment to be made in 100, 10 or 1 count increments. Since the exact current increment per voltage count varies from output to output and from instrument to instrume...

Operating Instructions Teledyne API – T101 Operation Manual 94 To adjust the zero and span values of the current outputs, activate the ANALOG I/O CONFIGURATION MENU (see Section 4.6.3), then press : DIAG AIO CONC_ OUT_2 SPAN: 5000 mV U100 U P1 0 UP DOWN DN1 0 D100 ENTR E XIT DIAG AI O AUTO CALIBRATI...

Teledyne API – T101 Operation Manual Operating Instructions 95 4.6.3.6. AIN Calibration This is the sub-menu to conduct the analog input calibration. This calibration should only be necessary after major repair such as a replacement of CPU, motherboard or power supplies. Activate the ANALOG I/O CONF...

Operating Instructions Teledyne API – T101 Operation Manual 96 4.6.3.7. Analog Inputs (XIN1…XIN8) Option Configuration To configure the analyzer’s optional analog inputs define for each channel :  gain (number of units represented by 1 volt)  offset (volts)  engineering units to be represented in...

Teledyne API – T101 Operation Manual Operating Instructions 97 4.6.4. OPTIC TEST The optic test function tests the response of the PMT sensor by turning on an LED located in the cooling block of the PMT (Fig. 10-15). The analyzer uses the light emitted from the LED to test its photo-electronic subsy...

Operating Instructions Teledyne API – T101 Operation Manual 98 4.6.5. ELECTRICAL TEST The electrical test function creates a current, which substitutes the PMT signal, and feeds it into the preamplifier board. This signal is generated by circuitry on the pre-amplifier board itself and tests the filt...

Teledyne API – T101 Operation Manual Operating Instructions 99 4.6.6. LAMP CALIBRATION An important factor in accurately determining H 2 S concentration, once the H 2 S is converted to SO 2, is the amount of UV light available to transform the SO 2 into SO 2 * (see Sections 10.1.1 and 10.1.2). The M...

Operating Instructions Teledyne API – T101 Operation Manual 100 4.6.7. PRESSURE CALIBRATION A sensor at the exit of the sample chamber continuously measures the pressure of the sample gas. This data is used to compensate the final H 2 S concentration calculation for changes in atmospheric pressure w...

Operating Instructions Teledyne API – T101 Operation Manual 102 4.6.9. TEST CHANNEL OUTPUT When activated, output channel A4 can be used to report one of the test functions viewable from the SAMPLE mode display. To activate the A4 channel and select a test function, follow this button sequence : SAM...

Teledyne API – T101 Operation Manual Operating Instructions 103 Once a TEST function is selected, the instrument begins to report a signal on the A4 output and adds TEST= to the list of test functions viewable on the display (just before the TIME display). 4.7. SETUP – COMM: SETTING UP THE ANALYSER’...

Operating Instructions Teledyne API – T101 Operation Manual 104 To edit the instrument’s ID code, press: SETUP X.X COMM UNICATIONS MENU ID HESN COM1 COM2 EXIT SETUP X. MACHINE ID: 100 ID 0 1 0 1 ENTR EXIT Toggle these butto ns to cycle thr ough the avail abl e character set: 0-9 ENTR accepts the n e...

Teledyne API – T101 Operation Manual Operating Instructions 105 4.7.2. COM PORT DEFAULT SETTINGS As received from the factory, the analyzer is set up to emulate a DCE or modem, with pin 3 of the DB-9 connector designated for receiving data and pin 2 designated for sending data.  RS232 : RS-232 (fix...

Teledyne API – T101 Operation Manual Operating Instructions 107 4.7.4. RS-485 CONFIGURATION As delivered from the factory, COM2 is configured for RS-232 communications. This port can be re-configured for operation as a non-isolated, half-duplex RS-485 port capable of supporting up to 32 instruments ...

Teledyne API – T101 Operation Manual Operating Instructions 109 4.7.6.2. Manually Configuring the Ethernet with Static IP Addresses 1. Connect a cable from the analyzer’s Ethernet port to a Local Area Network (LAN) or Internet port. 2. Access Ethernet configuration through: SETUP>MORE>COMM>...

Teledyne API – T101 Operation Manual Operating Instructions 111 Configure the INSTRUMENT IP , GATEWAY IP and SUBNET MASK addresses: I nternet Co nfi gu rati on T ou chscreen Fu ncti on s BUTTON FUNCTION [0] Press to cycl e through the range of num erals and available characters (“ 0 – 9” & “ . ”...

Operating Instructions Teledyne API – T101 Operation Manual 112 4.7.6.3. Changing the Analyzer’s HOSTNAME The HOSTNAME is the name by which the analyzer appears on your network. The default name for all Teledyne API Model T101 analyzers is T101 . To change this name (particularly if you have more th...

Teledyne API – T101 Operation Manual Operating Instructions 113 Table 4-18. Internet Configuration Touchscreen Button Functions BUTTON FUNCTION <CH Moves the cursor one character to the left. CH> Moves the cursor one character to the right. INS Inserts a character before the cursor location. D...

Operating Instructions Teledyne API – T101 Operation Manual 114 4.7.7. USB CONFIGURATION The analyzer can be operated through a personal computer by downloading the TAPI USB driver and directly connecting their respective USB ports. 1. Install the Teledyne T-Series USB driver on your computer, downl...

Operating Instructions Teledyne API – T101 Operation Manual 116 After connecting a USB cable between your PC and the instrument, ensure their baud rates match (change the baud rate setting for either your PC’s software or the instrument). The baud rate setting is in the Communications Menu under COM...

Teledyne API – T101 Operation Manual Operating Instructions 117 Figure 4-9. Jumper and Cables for Multidrop Mode Note If you are adding an instrument to the end of a previously configured chain, remove the shunt between Pins 21  22 of JP2 on the Multidrop/LVDS PCA in the instrument that was previou...

Operating Instructions Teledyne API – T101 Operation Manual 118 Analyzer Analyzer Analyzer Last Analyzer Female DB9 Male DB9 RS-232 COM2 RS-232 COM2 RS-232 COM2 RS-232 COM2 Host RS-232 port Ensure jumper is installed between JP2 pins 21  22 in last instrument of multidrop chain. Figure 4-10.Multidr...

Teledyne API – T101 Operation Manual Operating Instructions 119 4.7.9. MODBUS SET UP The following set of instructions assumes that the user is familiar with MODBUS communications, and provides minimal information to get started. For additional instruction, please refer to the Teledyne API MODBUS ma...

Teledyne API – T101 Operation Manual Operating Instructions 121 4.7.10. COM PORT COMMUNICATION MODES Each of the analyzer’s serial ports can be configured to operate in a number of different modes, which are listed in Table 4-18 and which can be combined by adding the Mode ID numbers. For example, q...

Operating Instructions Teledyne API – T101 Operation Manual 122 Press the following buttons to select a communication mode for a one of the COMM Ports, such as the following example where HESSEN PROTOCOL mode is enabled: Continue pr essing next until … SETUP X.X P RIMARY SETUP MENU CFG DAS RNGE PASS...

Teledyne API – T101 Operation Manual Operating Instructions 123 4.7.11. COM PORT BAUD RATE To select the baud rate of one of the COM Ports, press: EXAMPLE SETUP X.X COM 2 BAUD RATE:19200 PREV NEXT ENTR EXIT SETUP X.X COM 1 BAUD RATE:9600 NEXT ON ENTR EXIT SETUP X.X PRIMARY S ETUP MENU CFG DAS RNGE P...

Operating Instructions Teledyne API – T101 Operation Manual 124 4.7.12. COM PORT TESTING The serial ports can be tested for correct connection and output in the COMM menu. This test sends a string of 256 ‘w’ characters to the selected COM port. While the test is running, the red LED on the rear pane...

Teledyne API – T101 Operation Manual Operating Instructions 125 the DAS (Section 4.8). The APICOM manual, which is included with the program, contains a more detailed description of the DAS structure and configuration, which is briefly described in this section. The T101 is configured with a basic D...

Operating Instructions Teledyne API – T101 Operation Manual 126 Table 4-21. DAS Data Channel Properties PROPERTY DESCRIPTION DEFAULT SETTING RANGE NAME The name of the data channel. “NONE” Up to 6 letters and digits (more with APICOM, but only the first six are displayed on the front panel). TRIGGER...

Teledyne API – T101 Operation Manual Operating Instructions 127 Table 4-22. DAS Data Parameter Functions FUNCTION EFFECT PARAMETER Instrument-specific parameter name. SAMPLE MODE INST : Records instantaneous reading. AVG : Records average reading during reporting interval. MIN : Records minimum (ins...

Operating Instructions Teledyne API – T101 Operation Manual 128 4.8.2. DEFAULT DAS CHANNELS A set of default Data Channels has been included in the analyzer’s software for logging H 2 S concentration and certain predictive diagnostic data. These default channels include but are not limited to: CONC:...

Teledyne API – T101 Operation Manual Operating Instructions 129 LI ST OF PARAM ETE RS NAME: PNUM TC EVENT: ATIMER REPORT PERIOD: 001:00:00 NO. OF RECORDS: 360 RS-232 REPORT: OFF CHANNEL ENABLED: ON CAL HOLD OFF: OFF NAME: CALDAT EVENT: SLPCH G NO. OF RECORDS: 200 RS-232 REPORT: OFF CHANNEL ENABLED: ...

Operating Instructions Teledyne API – T101 Operation Manual 130 4.8.2.1. Viewing DAS Data and Settings DAS data and settings can be viewed on the front panel through the following keystroke sequence. SAMPLE RANGE = 500.0 PPB H2S =XXX.X < TST TST > CAL SETU P SETUP X.X CONC : DATA AVAILABLE NEX...

Teledyne API – T101 Operation Manual Operating Instructions 131 4.8.2.2. Editing DAS Data Channels DAS configuration is most conveniently done through the APICOM remote control program. The following list of key strokes shows how to edit using the front panel. Main Data Acquisition Menu Edit Data Ch...

Teledyne API – T101 Operation Manual Operating Instructions 133 4.8.2.3. Trigger Events To edit the list of data parameters associated with a specific data channel, press: SETUP X.X EVENT: ATIMER <PR EV NEXT> ENTR EXIT Edit Data Channel Menu SETUP X.X 0 ) CON C: ATIMER, 2, 4032,R PREV NEXT INS...

Operating Instructions Teledyne API – T101 Operation Manual 134 4.8.2.4. Editing DAS Parameters Data channels can be edited individually from the front panel without affecting other data channels. However, when editing a data channel, such as during adding, deleting or editing parameters, all data f...

Teledyne API – T101 Operation Manual Operating Instructions 135 To configure the parameters for a specific data parameter, press: FROM THE E DIT DA TA PA RAMETE R MENU (see previous sectio n) SETUP X.X 0) PARAM=S2SCN1, MODE=AVG PREV NEXT INS DEL EDIT EXIT SETUP X.X PARAMETERS:S2SC N1 SET> EDIT EX...

Teledyne API – T101 Operation Manual Operating Instructions 137 To define the REPORT PERIOD , follow the instruction shown in Section 4.11.2.2 then press: Edit Data Channel Menu SETUP X.X 0) C ONC: ATIMER, 2, 40 32, R PREV NEXT INS DEL EDIT PRNT EXIT Exits to the m ain Dat a Acquisition menu. SETUP ...

Teledyne API – T101 Operation Manual Operating Instructions 139 4.8.2.7. RS-232 Report Function The T101 DAS can automatically report data to the communications ports, where they can be captured with a terminal emulation program or simply viewed by the user. To enable automatic COM port reporting, f...

Operating Instructions Teledyne API – T101 Operation Manual 140 4.8.2.10. Disabling/Enabling Data Channels Data channels can be temporarily disabled, which can reduce the read/write wear on the disk-on-module . The ALL_01 channel of the T101, for example, is disabled by default. To disable a data ch...

Teledyne API – T101 Operation Manual Operating Instructions 141 4.8.2.11. HOLDOFF Feature The DAS HOLDOFF feature allows to prevent data collection during calibrations and during the DAS_HOLDOFF period enabled and specified in the VARS (Section 4.8). To enable or disable the HOLDOFF, follow the inst...

Operating Instructions Teledyne API – T101 Operation Manual 142 4.8.3. REMOTE DAS CONFIGURATION Editing channels, parameters and triggering events as described in this section is can be performed via the APICOM remote control program using the graphic interface shown in Figure 4-15. Refer to the nex...

Teledyne API – T101 Operation Manual Remote Operation 143 5. REMOTE OPERATION 5.1.1. REMOTE OPERATION USING THE EXTERNAL DIGITAL I/O 5.1.1.1. Status Outputs The status outputs report analyzer conditions via optically isolated NPN transistors, which sink up to 50 mA of DC current. These outputs can b...

Teledyne API – T101 Operation Manual Remote Operation 145 Table 5-1. Status Output Pin Assignments CONNECTOR PIN STATUS CONDITION (ON=CONDUCTING) 1 System Ok ON if no faults are present. 2 Conc Valid ON if concentration measurement is valid, OFF when invalid. 3 High Range ON if unit is in high range...

Remote Operation Teledyne API – T101 Operation Manual 146 There are two methods to activate control inputs. The internal +5V available from the “+” pin is the most convenient method (Figure 4.18). However, to ensure that these inputs are truly isolated, a separate, external 5 VDC power supply should...

Teledyne API – T101 Operation Manual Remote Operation 147 5.1.2.2. Help Commands in Terminal Mode Table 5-3. Terminal Mode Software Commands COMMAND Function Control-T Switches the analyzer to terminal mode (echo, edit). If mode flags 1 & 2 are OFF, the interface can be used in interactive mode ...

Remote Operation Teledyne API – T101 Operation Manual 148 5.1.2.3. Command Syntax Commands are not case-sensitive and all arguments within one command (i.e. ID numbers, keywords, data values, etc.) must be separated with a space character. All Commands follow the syntax: X [ID] COMMAND <CR> Wh...

Teledyne API – T101 Operation Manual Remote Operation 149 hexadecimal digits (0-9, A-F, a-f), which is the ‘C’ programming language convention. No plus or minus sign is permitted. For example, 0x1 , 0x12 , 0x1234abcd are all valid hexadecimal integers.  Floating-point numbers are used to specify co...

Remote Operation Teledyne API – T101 Operation Manual 150 5.1.2.6. General Message Format All messages from the instrument (including those in response to a command line request) are in the format: X DDD:HH:MM [Id] MESSAGE<CRLF> Where X is a command type designator, a single character indicati...

Teledyne API – T101 Operation Manual Remote Operation 151 To change this setting press: SETUP X.X SECONDARY SETUP MENU COMM VARS DIAG ALRM EXIT SAMPLE ENTER SETUP PASS : 818 8 1 8 ENTR EXIT SETUP X.X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SAMPLE RANGE = 500.0 PPB H2S =XXX.X < TST TST ...

Remote Operation Teledyne API – T101 Operation Manual 152 To Initialize the modem press: Select which C OM Port is tested SETUP X.X SECONDARY SETUP MENU COM M VARS DIAG ALRM EXIT SAMPLE ENTER SETUP PASS : 818 8 1 8 ENTR EXIT SETUP X.X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SAMPLE RANGE =...

Teledyne API – T101 Operation Manual Remote Operation 153 5.1.2.8. COM Port Password Security In order to provide security for remote access of the T101, a LOGON feature can be enabled to require a password before the instrument will accept commands. This is done by turning on the SECURITY MODE (Sec...

Remote Operation Teledyne API – T101 Operation Manual 154 Figure 5-4. APICOM Remote Control Program Interface APICOM is included free of cost with the analyzer and the latest versions can also be downloaded for free at http://www.teledyne-api.com/software/apicom/. 5.1.3. ADDITIONAL COMMUNICATIONS DO...

Teledyne API – T101 Operation Manual Remote Operation 155 5.1.4. USING THE T101 WITH A HESSEN PROTOCOL NETWORK 5.1.4.1. General Overview of Hessen Protocol The Hessen protocol is a Multidrop protocol, in which several remote instruments are connected via a common communications channel to a host com...

Remote Operation Teledyne API – T101 Operation Manual 156 5.1.4.3. Activating Hessen Protocol The first step in configuring the T101 to operate over a Hessen protocol network is to activate the Hessen mode for COMM ports and configure the communication parameters for the port(s) appropriately. Press...

Teledyne API – T101 Operation Manual Remote Operation 157 5.1.4.4. Selecting a Hessen Protocol Type Currently there are two version of Hessen Protocol in use. The original implementation, referred to as TYPE 1 , and a more recently released version, TYPE 2 that more flexibility when operating with i...

Teledyne API – T101 Operation Manual Remote Operation 159 5.1.4.6. Hessen Protocol Gas ID Since the T101 can be, when the proper optional equipment is installed and operating, a multigas instrument that measures both H 2 S and SO 2 , both of these gases are listed in the Hessen protocol gas list. In...

Remote Operation Teledyne API – T101 Operation Manual 160 5.1.4.7. Setting Hessen Protocol Status Flags Teledyne API’s implementation of Hessen protocols includes a set of status bits that the instrument includes in responses to inform the host computer of its condition. Each bit can be assigned to ...

Teledyne API – T101 Operation Manual Remote Operation 161 To assign or reset the status flag bit assignments, press: SETUP X.X SECONDARY SETUP MENU COMM VARS DIAG ALRM EXIT SAMPLE ENTER SETU P PASS : 81 8 8 1 8 ENTR EXIT SETUP X.X PRIMARY SETUP MENU CFG DAS RNGE PASS CLK MORE EXIT SAMPLE RANGE = 500...

Teledyne API – T101 Operation Manual Calibration Procedures 163 6. CALIBRATION PROCEDURES This Section describes the calibration procedures for the T101. All of the methods described in this section can be initiated and controlled through the COM ports. NOTE If you are using the T101 for US-EPA cont...

Teledyne API – T101 Operation Manual Calibration Procedures 165 6.1.5. CALIBRATION GAS TRACEABILITY All equipment used to produce calibration gases should be verified against standards of the National Institute for Standards and Technology (NIST). To ensure NIST traceability, we recommend acquiring ...

Calibration Procedures Teledyne API – T101 Operation Manual 166 STEP ONE: Connect the sources of zero air and span gas as shown below. No V alv e Optio ns In sta lle d Chassis Sam ple Zero A ir Exhau st Span MODEL 70 1 Zero A ir Gen er ator Calib rated H 2 S GAS (At high conc entration) Sour ce of S...

Teledyne API – T101 Operation Manual Calibration Procedures 167 STEP TWO : Set the expected H 2 S span gas concentrations. In this example the instrument is set for single ( SNGL ) range mode with a reporting range span of 500 ppb. This sequence causes the analyzer to prompt for the expected H 2 S s...

Calibration Procedures Teledyne API – T101 Operation Manual 168 STEP THREE : Perform the zero/span calibration: M- P CAL H2S STB=X.XXX PPB H2S =XXX.X < TST TST > ENTR CONC EXIT M- P CAL H2S STB=X.XXX PPB H2S =XXX.X < TST TST > CAL SETUP M- P CAL H2S STB=X.XXX PPB H2S =XXX.X < TST TST ...

Teledyne API – T101 Operation Manual Calibration Procedures 169 6.3. MANUAL CALIBRATION CHECKS Informal calibration checks, which only evaluate but do not alter the analyzer’s response curve, are recommended as a regular maintenance item and in order to monitor the analyzer’s performance. The follow...

Calibration Procedures Teledyne API – T101 Operation Manual 170 6.4. MANUAL CALIBRATION WITH ZERO/SPAN VALVES Zero and Span calibrations using the Zero/Span Valve option are similar to that described in Section 6.2 except that: Zero air and span gas is supplied to the analyzer through the zero gas a...

Teledyne API – T101 Operation Manual Calibration Procedures 171 Step Two: Set the expected H 2 S span gas value: This sequence causes the analyzer to prompt for the expected H 2 S span concentr ation. M- P CAL H2S SPAN CONC: 450.0 Conc 0 0 0 4 5 0 .0 ENTR EXIT M -P CAL RANGE = 500.000 PPB H2S =XXX.X...

Teledyne API – T101 Operation Manual Calibration Procedures 173 6.5. MANUAL CALIBRATION WITH IZS OPTION The following section describes the basic method for manually calibrating the Model T101 analyzer in H 2 S measurement mode using the IZS option. The same method may be used to calibrate the T101 ...

Calibration Procedures Teledyne API – T101 Operation Manual 174 6.6. MANUAL CALIBRATION CHECKS WITH IZS OR ZERO/SPAN VALVES Zero and span checks using the zero/span valve or IZS option are similar to that described in Section 6.3, except: On units with an IZS option installed, zero air and span gas ...

Teledyne API – T101 Operation Manual Calibration Procedures 175 STEP ONE : Connect the sources of Zero Air and Span Gas as shown below. External Zero Ai r Scrubber Filter MODE L 701 Zero Air Generator Source of SAMPLE Gas VENT if input is pressurized Zero/ Sp an Valves – Op tio n 50 MODEL T700 Gas D...

Teledyne API – T101 Operation Manual Calibration Procedures 177 6.7. MANUAL CALIBRATION IN INDEPENDENT OR AUTO REPORTING RANGE MODES If the analyzer is being operated in Ind or Auto Range mode, then the High and Low ranges must be independently checked. When the analyzer is in either Independent or ...

Calibration Procedures Teledyne API – T101 Operation Manual 178 If contact closures are used in conjunction with the analyzer’s AutoCal (Section 6.9) feature and the AutoCal attribute CALIBRATE is enabled, the T101 will not re-calibrate the analyzer until the contact is opened. At this point, the ne...

Teledyne API – T101 Operation Manual Calibration Procedures 179 The analyzer will ask to have the GAS TYPE specified at the beginning of the process as follows: Co ntin ue Calibration a s per Sta ndard Proce dure SAMPLE H2S STB =XXX.X PPB H2S =XXX.X < TST TST > CAL CALZ CALS SETUP ZERO C AL M ...

Calibration Procedures Teledyne API – T101 Operation Manual 182 Toggle to se t n umber of days b etwe en pro cedures (1-367) Toggle to set delay time for each iteration of the seq uence: HH: MM (0 – 2 4:00) SETUP X.X DELT A DAYS: 1 <SET S ET> E DI T EXIT SETUP X.X DELTA DAYS: 1 0 0 2 ENTR EXI ...

Teledyne API – T101 Operation Manual Calibration Procedures 183 It is recommended that, if dynamic calibration is enabled, the analyzer’s test functions, slope and offset values be checked frequently to assure high quality and accurate data from the instrument. 6.9.1. AUTOCAL OF INSTRUMENTS IN INDEP...

Calibration Procedures Teledyne API – T101 Operation Manual 184 6.9.2. AUTOCAL OF INSTRUMENTS IN MULTIGAS MEASUREMENT MODE If the analyzer is being operated in multigas measurement mode, auto cal can only be programmed to calibrate the instrument with one of the available gases. NOTE Make sure that ...

Teledyne API – T101 Operation Manual Calibration Procedures 185 6.10. CALIBRATION QUALITY After completing one of the calibration procedures described above, it is important to evaluate the analyzer’s calibration slope and offset parameters. These values describe the linear response curve of the ana...

187 7. EPA PROTOCOL CALIBRATION 7.1. CALIBRATION REQUIREMENTS When configured for SO 2 measurement mode or multigas measurement mode, the T101 may be used for EPA SLAMS monitoring. In these cases it must be calibrated in accordance with the instructions in this section. At the writing of this manual...

EPA Protocol Calibration Teledyne API – T101 Operation Manual 188 time. Therefore, it is necessary to dynamically check the calibration relationship on a predetermined schedule. Zero and span checks must be used to document that the data remains within control limits. These checks are also used in d...

Teledyne API – T101 Operation Manual EPA Protocol Calibration 189 Table 7-2. Activity Matrix for Calibration Procedure EQUIPMENT/ SUPPLIES ACCEPTANCE LIMITS FREQUENCY AND METHOD OF MEASUREMENT ACTION IF REQUIREMENTS ARE NOT MET Calibration Gases NIST traceable Assayed against an NIST-SRM semi-annual...

EPA Protocol Calibration Teledyne API – T101 Operation Manual 190 7.1.5. CALIBRATION FREQUENCY To ensure accurate measurements of the SO 2 concentrations, calibrate the analyzer at the time of installation, and re-calibrate it:  No later than three months after the most recent calibration or perfor...

Teledyne API – T101 Operation Manual EPA Protocol Calibration 191 7.1.7. SUMMARY OF QUALITY ASSURANCE CHECKS The following items should be checked on a regularly scheduled basis to assure high quality data from the T101. See Table 7-3 for a summary of activities. Also the QA Handbook should be check...

EPA Protocol Calibration Teledyne API – T101 Operation Manual 192 Table 7-4. Definition of Level 1 and Level 2 Zero and Span Checks (from Section 2.0.9 of Q.A. Handbook for Air Pollution Measurement Systems) LEVEL 1 ZERO AND SPAN CALIBRATION A Level 1 zero and span calibration is a simplified, two-p...

Teledyne API – T101 Operation Manual EPA Protocol Calibration 193 7.3. ZERO AND SPAN CHECKS A system of Level 1 and Level 2 zero span checks (see Table 8-4) is recommended. These checks must be conducted in accordance with the specific guidance given in Subsection 9.1 of Section 2.0.9 (Q.A. Handbook...

EPA Protocol Calibration Teledyne API – T101 Operation Manual 194  Single range selection. See Section 4.7.4 of this manual. If the instrument will be used more than one range, it should be calibrated separately on each applicable range.  Automatic temperature/pressure compensation.  Alternate un...

Teledyne API – T101 Operation Manual EPA Protocol Calibration 195 7.5. DYNAMIC MULTIPOINT SPAN CALIBRATION Dynamic calibration involves introducing gas samples of known concentrations to an instrument in order to record the instrument’s performance at a predetermined sensitivity and to derive a cali...

EPA Protocol Calibration Teledyne API – T101 Operation Manual 196 7.6. SPECIAL CALIBRATION REQUIREMENTS FOR INDEPENDENT RANGE OR AUTO RANGE If Independent Range or Auto Range is selected, then it should be calibrated for both Range1 and Range2 separately. For zero and span point calibration, follow ...

197 8. INSTRUMENT MAINTENANCE Predictive diagnostic functions including data acquisition, failure warnings and alarms built into the analyzer allow the user to determine when repairs are necessary without performing unnecessary, preventative maintenance procedures. There is, however, a minimal numbe...

Instrument Maintenance Model T101 Instruction Manual 199 Table 8-1 T101 Preventive Maintenance Schedule ITEM ACTION FREQUENCY CAL CHECK MANUAL SECTION DATE PERFORMED SO 2 scrubber Replace As required Yes 8.3.3 H 2 S  SO 2 Converter Catalyst Replace As required Yes 8.3.5 1 Particulate filter Change ...

Model T101 Instruction Manual Instrument Maintenance 201 8.2. PREDICTIVE DIAGNOSTICS The analyzer’s test functions can be used to predict failures by looking at trends in their values. The current value of these functions can be viewed via the front panel, recorded via the DAS system (see Section 4....

Instrument Maintenance Model T101 Instruction Manual 202 8.3. MAINTENANCE PROCEDURES The following procedures need to be performed regularly as part of the standard maintenance of the Model T101. 8.3.1. CHANGING THE SAMPLE PARTICULATE FILTER The particulate filter should be inspected often for signs...

Model T101 Instruction Manual Instrument Maintenance 203 8.3.2. CHANGING THE IZS PERMEATION TUBE 1. Turn off the analyzer, unplug the power cord and remove the cover. 2. Locate the IZS oven in the rear left of the analyzer. 3. Remove the top layer of insulation if necessary. 4. Unscrew the black alu...

Instrument Maintenance Model T101 Instruction Manual 204 EXAMPLE: If the SO 2 concentration is 125 ppb: Operational hours = 1000 ppm/hr ÷ 0.125 ppm Operational hours = 1,000,000 ppb/hr ÷ 125 ppb Operational hours = 8000 hrs 8.3.3.2. Checking the Function of the SO 2 Scrubber To check to see if your ...

Model T101 Instruction Manual Instrument Maintenance 205 8.3.4. CHANGING THE EXTERNAL ZERO AIR SCRUBBER The chemicals in the external scrubber need to be replaced periodically according to Table 9-1 or as needed. This procedure can be carried out while the instrument is running. Make sure that the a...

Instrument Maintenance Model T101 Instruction Manual 206 8.3.5. MAINTAINING THE H 2 S  SO 2 CONVERTER The catalyst contained in the H 2 S  SO 2 converter of your T101 must be replaced periodically in order for the analyzer to continue measuring H2S accurately and reliability. This material is capa...

Model T101 Instruction Manual Instrument Maintenance 207 Converter Efficiency = 490.3 ÷ 499.1 Converter Efficiency = 0.982 (98.2%) 10. It is recommended that the H 2 S  SO 2 converter catalyst material be replaced if the converter efficiency falls below 96% or whatever efficiency rating is specifie...

Model T101 Instruction Manual Instrument Maintenance 209 8.3.6. CHECKING FOR LIGHT LEAKS When re-assembled or operated improperly, the T101 can develop small leaks around the PMT, which let stray light from the analyzer surrounding into the PMT housing. To find such light leaks, follow the procedure...

Instrument Maintenance Model T101 Instruction Manual 210 Gas Line fitting Spring Sintered Filter O-Ring Critical Flow Orifice O-Ring Vacuum Manifold Figure 8-4. Critical Flow Orifice Assembly 5. Take out the components of the assembly: a spring, a sintered filter, two O-rings and the critical flow o...

Model T101 Instruction Manual Troubleshooting & Service 211 9. TROUBLESHOOTING & SERVICE This section contains a variety of methods for identifying and solving performance problems with the analyzer. CAUTION The operations outlined in this Section must be performed by qualified maintenance p...

Troubleshooting & Service Model T101 Instruction Manual 212  Examine the values of all TEST functions and compare them to factory values. Note any major deviations from the factory values and take corrective action.  Use the internal electronic status LED’s to determine whether the electronic ...

Troubleshooting & Service Model T101 Instruction Manual 214 To view or clear a warning message press: SAMPLE SY STEM RESET H2S = X XX.X T EST CAL MSG CLR SETUP If warning m es sages re- appear , the cause needs to be found. Do not repeatedly clear war nings without corrective action. Press CLR t...

Troubleshooting & Service Model T101 Instruction Manual 216 9.1.2. FAULT DIAGNOSIS WITH TEST FUNCTIONS Besides being useful as predictive diagnostic tools, the TEST functions, viewable from the front panel, can be used to isolate and identify many operational problems when combined with a thorou...

Model T101 Instruction Manual Troubleshooting & Service 217 9.1.3. USING THE DIAGNOSTIC SIGNAL I/O FUNCTION The signal I/O parameters found under the diagnostics (DIAG) menu combined with a thorough understanding of the instrument’s theory of operation (Section 10) are useful for troubleshooting...

Troubleshooting & Service Model T101 Instruction Manual 218 Toggles parameter ON/OFF Exit returns to DIAG display & all values return to software contr ol DIAG SIGNAL I/O PREV NEXT ENTR EXIT DIAG I/O 0 ) EXT_ZERO_CAL=ON PREV NEXT JUMP PRNT EXIT DIAG I/O 23 ) ST H2S_MODE= ON PREV NEXT JUMP ON...

Model T101 Instruction Manual Troubleshooting & Service 219 9.1.4.1. Motherboard Status Indicator (Watchdog) DS5, a red LED on the upper portion of the motherboard, just to the right of the CPU board, flashes when the CPU is running the main program. After power-up, DS5 should flash on and off a...

Troubleshooting & Service Model T101 Instruction Manual 220 Table 9-3. Relay Board Status LEDs LED COLOR FUNCTION FAULT STATUS INDICATED FAILURE(S) D1 red Watchdog Circuit; I2C bus operation. Continuously ON or OFF Failed or halted CPU; faulty motherboard, keyboard, relay board; wiring between m...

Model T101 Instruction Manual Troubleshooting & Service 221 9.2.1. ZERO OR LOW SAMPLE FLOW If the pump is operating but the unit reports a 0 gas flow, do the following three steps:  Check for actual sample flow  Check pressure  Carry out a leak check To check the actual sample flow, disconnec...

Troubleshooting & Service Model T101 Instruction Manual 222  If the response offset test function for H 2 S ( H2S OFFS ) are greater than 150 mV, a failed PMT or high voltage supply, or sample chamber contamination, could be the cause. Clean the sample chamber according to Section 8.3.6. 9.3.2....

Model T101 Instruction Manual Troubleshooting & Service 223  Verify that the expected concentration is set properly to the actual span gas concentration in the CONC sub-menu.  Confirm that the H 2 S span gas source is accurate. This can be done by comparing the source with another calibrated a...

Troubleshooting & Service Model T101 Instruction Manual 224  Dilution air contains sample or span gas.  Sample inlet may be contaminated with H 2 S exhaust from this or other analyzers. Verify proper venting of the pump exhaust.  Span gas overflow is not properly vented and creates a back-pre...

Model T101 Instruction Manual Troubleshooting & Service 225  Dirty sample chamber. Clean the sample chamber.  Insufficient time allowed for purging of lines upstream of the analyzer.  Insufficient time allowed for H 2 S calibration gas source to become stable. 9.4.3. THE ANALYZER DOESN’T APPE...

Troubleshooting & Service Model T101 Instruction Manual 226 bubble solution, looking for fine bubbles. Once the fittings have been wetted with soap solution, do not re-apply vacuum as it will draw soap solution into the instrument and contaminate it. Do not exceed 15 psi pressure. 4. If the inst...

Model T101 Instruction Manual Troubleshooting & Service 227 If the unit is set for 220-240 V and is plugged into 100-120 V, the analyzer will not start. If the unit is set for 100-120 V and is plugged into 220-240 V, the circuit breaker built into the ON/OFF Switch on the front panel will trip t...

Troubleshooting & Service Model T101 Instruction Manual 228 9.5.5. I 2 C BUS Operation of the I 2 C bus can be verified by observing the behavior of the LED labeled D1 on the relay board in conjunction with the performance of the front panel display. Assuming that the DC power supplies are opera...

Model T101 Instruction Manual Troubleshooting & Service 229 Table 9-6. Relay Board Control Devices FUNCTION CONTROL DEVICE SOCKETED Valve0 – Valve3 U5 Yes Valve4 – Valve7 U6 Yes All heaters K1-K5 Yes 9.5.9. MOTHERBOARD 9.5.9.1. A/D functions A basic check of the analog to digital (A/D) converter...

Troubleshooting & Service Model T101 Instruction Manual 230 9.5.9.3. Status Outputs The procedure below can be used to test the Status outputs. 1. Connect a cable jumper between the “-“ pin and the “  ” pin on the status output connector. 2. Connect a 1000 Ω resistor between the +5 V and the pi...

Model T101 Instruction Manual Troubleshooting & Service 231 In some rare circumstances, this failure may be caused by a bad IC on the motherboard, specifically U57, the large, 44 pin device on the lower right hand side of the board. If this is true, removing U57 from its socket will allow the in...

Troubleshooting & Service Model T101 Instruction Manual 232 Further help with serial communications is available in a separate manual “RS-232 Manual”, Teledyne API part number 013500000, available online at http://www.Teledyne-api.com/manuals/. 9.5.12. PMT SENSOR The photo multiplier tube detect...

Model T101 Instruction Manual Troubleshooting & Service 233 9.5.15. HIGH VOLTAGE POWER SUPPLY The HVPS is located in the interior of the sensor module and is plugged into the PMT tube (Figure 10-13). It requires 2 voltage inputs. The first is +15 which powers the supply. The second is the progra...

Troubleshooting & Service Model T101 Instruction Manual 234 The IZS option is heated with a proportional heater circuit and the temperature is maintained at 50° C ±1°. Check the IZS TEMP function via front panel display (Section 4.2.1) and the IZS_TEMP signal voltage using the SIGNAL I/O functio...

Model T101 Instruction Manual Troubleshooting & Service 235 be re-entered before the instrument will function correctly. Also, zero and span calibration should be performed. 1. Document all analyzer parameters that may have been changed, such as range, auto-cal, analog output, serial port and ot...

Model T101 Instruction Manual Troubleshooting & Service 237 Table 9-9. Example of UV Lamp Power Supply Outputs UVLAMP_SIGNAL ACTION TO BE TAKEN 3500mV±200mV. No Action Required > 4900mV at any time. Adjust the UV reference detector potentiometer (refer to Figure 9-6) until UVLAMP_SIGNAL reads...

Model T101 Instruction Manual Troubleshooting & Service 241 QUESTION ANSWER How often do I need to change the particulate filter? Once per week. Table 8-1 contains a maintenance schedule listing the most important, regular maintenance tasks. What is the averaging time for a T101? The default ave...

Model T101 Instruction Manual Principles Of Operation 243 10. PRINCIPLES OF OPERATION The T101 UV Fluorescence H 2 S Analyzer is a microprocessor controlled analyzer that determines the concentration of hydrogen sulfide (H 2 S), in a sample gas drawn through the instrument It requires that sample an...

Principles Of Operation Model T101 Instruction Manual 244 The chemical process is: 2 2 2 2 SO 2 O H 2 O 3 S H 2       The converter is a heated stainless steel core containing a catalyst across which the sample gas passes just before induction into the reaction cell. The temperature of the con...

Model T101 Instruction Manual Principles Of Operation 245 Figure 10-1. UV Absorption The equation for defining the average intensity of the UV light ( Ia ) is:       2 0 SO ax exp 1 I Ia    Where: (Equation 10-2) I 0 = Intensity of the excitation UV light. a = The absorption coefficient of ...

Principles Of Operation Model T101 Instruction Manual 246   * SO k F 2  Where: F = the amount of fluorescent light given off. k = The rate at which the SO 2 * decays into SO 2. SO 2 * = Amount of excited state SO 2 in the sample chamber. Therefore: nm 330 2 kF 2 hv SO * SO      Furthermore, ...

Model T101 Instruction Manual Principles Of Operation 247 10.2. THE UV LIGHT PATH The optical design of the Model T101’s sample chamber optimizes the fluorescent reaction between SO 2 and UV Light (Figure 10-2) and assures that only UV light resulting from the decay of SO 2 * into SO2 is sensed by t...

Principles Of Operation Model T101 Instruction Manual 248 The lamp used in the Model T101 is constructed with a vacuum jacket surrounding a double-bore lamp element (Figure 10-3). The vacuum jacket isolates the plasma arc from most external temperature fluctuations. The jacket also contains the ther...

Model T101 Instruction Manual Principles Of Operation 249 10.2.4. OPTICAL FILTERS The Model T101 analyzer uses two stages of optical filters to enhance performance. The first stage conditions the UV light used to excite the SO 2 by removing frequencies of light that are not needed to produce SO 2 *....

Principles Of Operation Model T101 Instruction Manual 250 LAM P OUT P UT (A rb itrar y U nt is ) 10 5 10 4 10 2 10 3 10 1 1 100 200 300 400 500 WAVELENGTH (nm) 0 213.9 3 30.3 SO 2 * FLUORESCENT SPECTRUM PMT OPTICAL FILTER BANDWIDTH Figure 10-5. PMT Optical Filter Bandwidth 10.2.5. OPTICAL LENSES Two...

Model T101 Instruction Manual Principles Of Operation 251 Another lens located between the excitation UV source lamp and the sample chamber collimates the light emitted by the lamp into a steady, circular beam and focuses that beam directly onto the reference detector. This allows the reference dete...

Principles Of Operation Model T101 Instruction Manual 252 10.2.6.2. UV Absorption by Ozone Because ozone absorbs UV Light over a relatively broad spectrum it could cause a measurement offset by absorbing some of the UV given off by the decaying SO 2 * in the sample chamber. The Model T101 prevents t...

Model T101 Instruction Manual Principles Of Operation 253 10.3. PNEUMATIC OPERATION CAUTION It is important that the sample airflow system is leak-tight and not pressurized over ambient pressure. Regular leak checks should be performed on the analyzer as described in the maintenance schedule, Table ...

Principles Of Operation Model T101 Instruction Manual 254 10.3.1. SAMPLE GAS FLOW The flow of gas through the T101 UV Fluorescence H 2 S Analyzer is created by a small internal pump that pulls air though the instrument. PMT EXH AU ST T O O UT ER L AYER O F K IC KER R E AC T IO N CE L L P U RG E F L ...

Model T101 Instruction Manual Principles Of Operation 255 10.3.2. MULTIGAS MEASUREMENT & H 2 S  SO 2 SWITCHING VALVE. When activated for operation the multigas measurement mode allows the instrument to measure either or both H 2 S or SO 2 via a Teflon ® switching valve. This valve, under CPU co...

Principles Of Operation Model T101 Instruction Manual 256 pressure differential combined with the action of the analyzer’s external pump draws the gas through the orifice. As the pressure on the downstream side of the orifice (the pump side) continues to drop, the speed that the gas flows though the...

Principles Of Operation Model T101 Instruction Manual 258 10.3.7. PNEUMATIC SENSORS The T101 uses two pneumatic sensors to verify gas streams. These sensors are located on a printed circuit assembly, called the pneumatic pressure/flow sensor board. 10.3.7.1. Sample Pressure Sensor An absolute pressu...

Model T101 Instruction Manual Principles Of Operation 259 10.4. ELECTRONIC OPERATION Analog In Pneum atic Sens or B oard Sample Press ure Sensor Sample Flow Sensor Analog Outputs Status Outputs: 1 – 8 Control Inpu ts : 1 – 6 PC 104 CPU Card Disk On Module Flash Chip Power-Up Circuit I 2 C Bus Analo ...

Principles Of Operation Model T101 Instruction Manual 260 The core of the analyzer is a microcomputer that controls various internal processes, interprets data, makes calculations, and reports results using specialized firmware developed by Teledyne API. It communicates with the user as well as rece...

Model T101 Instruction Manual Principles Of Operation 261 10.4.1. CPU The unit’s CPU card, installed on the motherboard located inside the rear panel, is a low power (5 VDC, 720mA max), high performance, Vortex 86SX-based microcomputer running Windows CE. Its operation and assembly conform to the PC...

Principles Of Operation Model T101 Instruction Manual 262 10.4.2. SENSOR MODULE & SAMPLE CHAMBER Electronically, the T101 sensor module is a group of subassemblies with different tasks: to detect the intensity of the light from the fluorescence reaction between SO 2 and UV light in the sample ch...

Model T101 Instruction Manual Principles Of Operation 263 10.4.4. PHOTO MULTIPLIER TUBE (PMT) The T101 uses a photo multiplier tube (PMT) to detect the amount of fluorescence created by the SO 2 and UV light reaction in the sample chamber. PMT Input Signal Connector Optical Test LED PMT High Voltage...

Principles Of Operation Model T101 Instruction Manual 264 Figure 10-14. Basic PMT Design A significant performance characteristic of the PMT is the voltage potential across the electron multiplier. The higher the voltage, the greater is the number of electrons emitted from each dynode of the electro...

Model T101 Instruction Manual Principles Of Operation 265 TEC Control PCA PMT Preamp PCA Thermistor outputs temp of cold block to preamp PCA Preamp PCA sends buffered and amplified thermistor signal to TEC PCA TEC PCA sets appropriate drive voltage for cooler Heat from PMT is absorbed by the cold bl...

Principles Of Operation Model T101 Instruction Manual 266 be adjusted through a potentiometer. These adjustments should only be performed when encountering problems with the software calibration that cannot be rectified otherwise. See Section 9.6.4 for this hardware calibration. To Motherboard PMT P...

Model T101 Instruction Manual Principles Of Operation 267 10.4.7. PNEUMATIC SENSOR BOARD The flow and pressure sensors of the T101 are located on a printed circuit assembly just behind the PMT sensor. Refer to Section 9.5.15 on how to test this assembly. The signals of this board are supplied to the...

Principles Of Operation Model T101 Instruction Manual 268 10.4.9. STATUS LEDS & WATCH DOG CIRCUITRY Z e r o / S p a n a n d I Z S O p t io n s S a m p le / C a l V a lv e I Z S O p t io n P e rm e a t io n T u b e H e a te r D a rk S h u t te r S a m p le C h a m b e r H e a t e r I 2 C W a t ch...

Model T101 Instruction Manual Principles Of Operation 269 As a Safety measure, special circuitry on the Relay Board watches the status of LED D1. Should this LED ever stay ON or OFF for 30 seconds, indicating that the CPU or I 2 C bus has stopped functioning, the Watchdog Circuit will automatically ...

Principles Of Operation Model T101 Instruction Manual 270 board. It is digitized and sent to the CPU where it is used to calculate the current temperature of the PMT. This measurement is stored in the analyzer’s memory as the test function PMT TEMP and is viewable as a test function (Section 4.2.1) ...

Model T101 Instruction Manual Principles Of Operation 271 In its standard configuration, the analyzer comes with all three of these channels set up to output a DC voltage. However, 4-20mA current loop drivers can be purchased for the first two of these outputs, A1 and A2 . Output Loop-back: All thre...

Principles Of Operation Model T101 Instruction Manual 272 A C POWER E NTRAN CE ON/ OFF SWIT CH PS 1 (+5 VDC; ±15 VDC) PS 2 (+12 VD C) Cha ssis Coo ling Fan IZS O ption Permeation Tube He ater PUMP Sample Chamber H eate rs Sample/ Cal for Z/S and IZS Val ve O ptions A C POWER DC PO WE R UV Source Lam...

Model T101 Instruction Manual Principles Of Operation 273 10.6. FRONT PANEL/DISPLAY INTERFACE Users can input data and receive information directly through the front panel touch-screen display. The LCD display is controlled directly by the CPU board. The touchscreen is interfaced to the CPU by means...

Principles Of Operation Model T101 Instruction Manual 274 10.7. SOFTWARE OPERATION The T101 H 2 S analyzer is at its heart a high performance, 386-based microcomputer running MS-DOS. Inside the DOS shell, special software developed by Teledyne API interprets user commands via the various interfaces,...

Model T101 Instruction Manual Principles Of Operation 275 10.7.2. CALIBRATION - SLOPE AND OFFSET Calibration of the analyzer is performed exclusively in software. During instrument calibration (Chapters 6 and 7) the user enters expected values for zero and span through the front panel keypad and com...

Principles Of Operation Model T101 Instruction Manual 276 10.7.3. TEMPERATURE AND PRESSURE COMPENSATION (TPC) FEATURE As explained previously, changes in temperature can significantly affect the amount of fluoresced UV light generated in the instrument’s sample chamber. To negate this effect the Mod...

Model T101 Instruction Manual A Primer on Electro-Static Discharge 277 11. A PRIMER ON ELECTRO-STATIC DISCHARGE Teledyne API considers the prevention of damage caused by the discharge of static electricity to be extremely important part of making sure that your analyzer continues to provide reliable...

A Primer on Electro-Static Discharge Model T101 Instruction Manual 278 workbench, using a plastic handled screwdriver or even the constant jostling of Styrofoam TM pellets during shipment can also build hefty static charges Table 11-1. Static Generation Voltages for Typical Activities MEANS OF GENER...

Model T101 Instruction Manual A Primer on Electro-Static Discharge 279  Any time a charged surface (including the human body) discharges to a device. Even simple contact of a finger to the leads of a sensitive device or assembly can allow enough discharge to cause damage. A similar discharge can oc...

A Primer on Electro-Static Discharge Model T101 Instruction Manual 280  As long as my analyzer is properly installed, it is safe from damage caused by static discharges : It is true that when properly installed the chassis ground of your analyzer is tied to earth ground and its electronic component...

Model T101 Instruction Manual A Primer on Electro-Static Discharge 281  Always store sensitive components and assemblies in anti-ESD storage bags or bins: Even when you are not working on them, store all devices and assemblies in a closed anti-Static bag or bin. This will prevent induced charges fr...

A Primer on Electro-Static Discharge Model T101 Instruction Manual 282 11.4.2. BASIC ANTI-ESD PROCEDURES FOR ANALYZER REPAIR AND MAINTENANCE 11.4.2.1. Working at the Instrument Rack When working on the analyzer while it is in the instrument rack and plugged into a properly grounded power supply. 1. ...

Model T101 Instruction Manual A Primer on Electro-Static Discharge 283 6. Disconnecting your wrist strap is always the last action taken before leaving the workbench. 11.4.2.3. Transferring Components from Rack to Bench and Back When transferring a sensitive device from an installed Teledyne API ana...

A Primer on Electro-Static Discharge Model T101 Instruction Manual 284 static charges from damaging the components or assemblies being shipped make sure that you always unpack shipments from Teledyne API by: 1. Opening the outer shipping box away from the anti-ESD work area. 2. Carry the still seale...

Model T101 Instruction Manual Clossary 285 GLOSSARY Note: Some terms in this glossary may not occur elsewhere in this manual. Term Description/Definition 10BaseT an Ethernet standard that uses twisted (“T”) pairs of copper wires to transmit at 10 megabits per second (Mbps) 100BaseT same as 10BaseT e...

Model T101 Instruction Manual Glossary 287 Term Description/Definition FPI Fabry-Perot Interface : a special light filter typically made of a transparent plate with two reflecting surfaces or two parallel, highly reflective mirrors GFC Gas Filter Correlation I 2 C bus a clocked, bi-directional, seri...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-1 APPENDIX A - Version Specific Software Documentation APPENDIX A-1: Software Menu Trees, S/W Version C.7 (E-Series), 1.0.5 (T-Series) .................... 3 APPENDIX A-2: Setup Variables For Serial I/O, S/W...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-3 APPENDIX A-1: Software Menu Trees, S/W Version C.7 (E-Series), 1.0.5 (T-Series) ZERO SPAN CONC SAMPLE <TST TST> RANGE H2S ST B SA MP FL PRE S PMT NO RM PMT UV LA MP LAMP R ATI O ST R. LGT DA RK PMT D...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-5 CFG  MOD EL NAME  PART NUMBER  SERIAL NUMBER  SOFTWARE REVISION  LIBRARY REVISION  iCHIP SOFTW ARE REVISION 1  HESSEN PROTOCOL REVISION 1  ACTIVE SPECIAL SOFTWARE OPTIONS 1  CPU TYPE  DATE FACTOR...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-7 QUIET COMPUTER H ESSEN P ROTOCOL E, 8,1 E, 7, 1 RS-48 5 SECURITY MUL TIDROP PROTOCOL ENABLE MODEM ERROR CHEC KING 2 XON/XOFF HANDSHAKE 2 H ARDWARE HANDSHAKE H ARDWARE FIFO 2 COMMAND PROMPT CFG ACAL 1 SAMPL...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-11 APPENDIX A-2: Setup Variables For Serial I/O, S/W Version C.7 (E-Series), 1.0.5 (T-Series) Table A-1: Setup Variables Setup Variable Numeric Units Default Value Value Range Description Low Access Level Se...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-12 Setup Variable Numeric Units Default Value Value Range Description CONC_PRECISION — 1 AUTO, 0, 1, 2, 3, 4 Number of digits to display to the right of the decimal point for concentrations on the display. E...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-21 APPENDIX A-3: Warnings and Test Measurements, S/W Version C.7 (E-Series), 1.0.5 (T-Series) Table A-2: Warning Messages Name 1 Message Text Description Warnings WSYSRES SYSTEM RESET Instrument was power-cy...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-25 APPENDIX A-4: Signal I/O Definitions, S/W Version C.7 (E-Series), 1.0.5 (T-Series) Table A-4: Signal I/O Definitions Signal Name Bit or Channel Number Description Internal inputs, U7, J108, pins 9–16 = bi...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-27 Signal Name Bit or Channel Number Description 1 = all pressures OK ST_TEMP_ALARM 4 0 = any temperature alarm 1 = all temperatures OK ST_HVPS_ALARM 5 0 = HVPS alarm 1 = HVPS OK 6–7 Spare Front panel I 2 C ...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-28 Signal Name Bit or Channel Number Description DARK_SHUTTER 10 0 = close dark shutter 1 = open FLUSH_VALVE 4 11 0 = open flow restrictor bypass (flush) valve 1 = close 12–15 Spare AUX board analog inputs, ...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-29 Signal Name Bit or Channel Number Description TEMP_INPUT_4 4 Diagnostic temperature input TEMP_INPUT_5 5 Diagnostic temperature input TEMP_INPUT_6 6 Diagnostic temperature input 7 Spare Rear board DAC MUX...

Teledyne API T/E-Series Models 101, 102, and 108 Software Documentation (PN05492D DCN6485) A-36 4 PMT temperature warning 5 Reaction cell temperature warning 6 Sample pressure warning 7 HVPS warning 8 System reset warning 9 Rear board communication warning 10 Relay board communication warning 11 Fro...

T101 Spare Parts List PARTNUMBER DESCRIPTION 000940100 CD, ORIFICE, .003 GREEN 000940400 CD, ORIFICE, .004 BLUE 000940800 CD, ORIFICE, .012 (NO PAINT) 002690000 CD, LENS, PL-CON (KB) 002700000 CD, LENS, BI-CON (KB) 002720000 CD, FILTER, 330NM (KB) 003290000 THERMISTOR, BASIC (VENDOR ASSY)(KB) 005960...

APPENDIX D – Wire List and Electronic Schematics 07266B DCN6845 D-1

Interconnect List, T101 (Reference 0736501 Rev01) Revision Checked Date DCN 01 KV 9/3/10 Cable PN Signal Assembly PN J/P Pin Assembly PN J/P Pin 0337801 CBL ASSY, ADD-ON MOLY HEATER Common1 Relay PCA 045230100 P2 6 Moly Heater 052930200 2 Load1 Relay PCA 045230100 P2 7 Moly Heater 052930200 1 AC Neu...

1 2 3 4 A B C D 4 3 2 1 D C B A A PPROV A LS D R A WN CHECKED A PPROV ED DATE S IZE D R A W I N G NO . R E V I S I ON S HEET The information herein is theproperty of API and issubmitted in strictest con- Unauthorized use by anyone fidence for reference only. for any other purposes isprohibited. This...

1 2 3 4 A B C D 4 3 2 1 D C B A APPROVALS DRAWN CHECKED APPROVED DATE SIZE DRAWING NO. REVISION SHEET The information herein is theproperty of API and issubmitted in strictest con- Unauthorized use by anyone fidence for reference only. for any other purposes isprohibited. This document orany informa...

1 1 2 2 3 3 4 4 5 5 6 6 D D C C B B A A Title Number Revision Size B Date: 6/24/2010 Sheet of File: N:\PCBMGR\..\06696.P1.R3.schdoc Drawn By: GUI Interface 06698 D 1 4 2 3 4 5 6 7 8 1 51 52 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 ...

1 1 2 2 3 3 4 4 5 5 6 6 D D C C B B A A Title Number Revision Size B Date: 6/24/2010 Sheet of File: N:\PCBMGR\..\06696.P2.R3.schdoc Drawn By: 06698 D 2 4 22uH L1 Vin 5 SHDN 4 SW 1 GN D 2 FB 3 U1 CAT4139TD-GT3 4.7uF/16V C9 1K R12 2.0 R14 5V-GND +5V 9.76 R13 3.9uH L2 487K R9 309K R8 80.6K R18 66.5K R1...

1 1 2 2 3 3 4 4 5 5 6 6 D D C C B B A A Title Number Revision Size B Date: 6/24/2010 Sheet of File: N:\PCBMGR\..\06696.P3.R3.schdoc Drawn By: 06698 D 4 3 12345 To old TScreen 70553-004 NI J11 LLRLSDRTLT +5V CHASSIS 1 2 NI J12 BUS +5 12345 To new TScreen 70553-004 J10 LT 1 RT 2 SHL D 3 RL 4 LL 5 GN D...

1 1 2 2 3 3 4 4 5 5 6 6 D D C C B B A A Title Number Revision Size B Date: 6/24/2010 Sheet of File: N:\PCBMGR\..\06696.P4.R3.schdoc Drawn By: 06698 D 4 4 TOUCH SCREEN INTERFACE CIRCUITRY ( TBD) GUI Interface R40 10K O p tion CLKOUT_P CLKOUT_N 3.3V C49 0.1 R41100 FB6 FB14 Vcc PIN 28 C47 0.01 22uF/6.3...

1 1 2 2 3 3 4 4 D D C C B B A A Title Number Revision Size A Date: 5/7/2010 Sheet of File: N:\PCBMGR\..\06882-P1-R0.SchDoc Drawn By: LVDS, Transmitter Board B 1 1 RT 06882 VAD6VAD7VAD8VAD9VAD10VAD11VBD10VBD11VAD0VAD1VAD2VAD3VBD2VBD3VBD4VBD5VBD6VBD7 VBDE Y0_NY0_PY1_NY1_PY2_NY2_P CLKOUT_NCLKOUT_P R2 2...