Agilent 4500 DialPath FTIR Spectroscope Operation Manual PDF

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Agilent 4500 Series FTIR

Operation Manual

2 Agilent 4500 Series FTIR Operation Manual

Notices Agilent Technologies, Inc. 2008 2013, 2017

No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Agilent Technologies, Inc. as governed by United States and international copyright laws.

Manual Part Number 0021-401

Edition Tenth edition, October 2017

Printed in Malaysia

Agilent Technologies Australia [M] Pty, Ltd.

679 Springvale Road

Mulgrave, Victoria, 3170, Australia

www.agilent.com

Warranty The material contained in this document is provided as is, and is subject to being changed, without notice, in future editions. Further, to the maximum extent permitted by applicable law, Agilent disclaims all warranties, either express or implied, with regard to this manual and any information contained herein, including but not limited to the implied warranties of merchantability and fitness for a particular purpose. Agilent shall not be liable for errors or for incidental or consequential damages in connection with the furnishing, use, or performance of this document or of any information contained herein. Should Agilent and the user have a separate written agreement with warranty terms covering the material in this document that conflict with these terms, the warranty terms in the separate agreement shall control.

Technology Licenses The hardware and/or software described in this document are furnished under a license and may be used or copied only in accordance with the terms of such license.

Restricted Rights Legend If software is for use in the performance of a U.S. Government prime contract or subcontract, Software is delivered and licensed as Commercial computer software as defined in DFAR 252.227-7014 (June 1995), or as a commercial item as defined in FAR 2.101(a) or as Restricted computer software as defined in FAR 52.227-19 (June 1987) or any equivalent agency regulation or

contract clause. Use, duplication or disclosure of Software is subject to Agilent Technologies standard commercial license terms, and non- DOD Departments and Agencies of the U.S. Government will receive no greater than Restricted Rights as defined in FAR 52.227-19(c)(1-2) (June 1987). U.S. Government users will receive no greater than Limited Rights as defined in FAR 52.227-14 (June 1987) or DFAR 252.227-7015 (b)(2) (November 1995), as applicable in any technical data.

Safety Notices

A CAUTION notice denotes a hazard. It calls attention to an operating procedure, practice, or the like that, if not correctly performed or adhered to, could result in damage to the product or loss of important data. Do not proceed beyond a CAUTION notice until the indicated conditions are fully understood and met.

A WARNING notice denotes a hazard. It calls attention to an operating procedure, practice, or the like that, if not correctly performed or adhered to, could result in personal injury or death. Do not proceed beyond a WARNING notice until the indicated conditions are fully understood and met.

WARNING

CAUTION

Contents

Agilent 4500 Series FTIR Operation Manual 3

Contents

1. Introduction 5

2. Getting Started 7

Unpacking 7 Agilent 4500t FTIR packing list 8 Agilent 4500a FTIR packing list 8 Agilent 4500 DialPath FTIR packing list 9

Connecting power 10 Power cord selection 12

Turning on the instrument 13 Power switch LED status 13

Starting the software 14

Performance verification 14 Diagnostic values 15 Performance validation 17

3. Analyzing Samples 19

Lube samples with the Agilent 4500t FTIR 19 Cleaning the TumblIR accessory 21 Collecting a background spectrum 22 Measuring a sample 22

Agilent 4500t FTIR with a TumblIR 24 Cleaning the accessory 25 Collecting a background spectrum 26 Measuring a liquid sample 27

Contents

4 Agilent 4500 Series FTIR Operation Manual

Agilent 4500a FTIR with an ATR 28 Cleaning the accessory 32 Collecting a background spectrum 32 Collecting a sample spectrum 33

Agilent 4500 DialPath FTIR 35 Cleaning the DialPath accessory 37 Collecting a background spectrum 39 Measuring a liquid sample 39

4. Spare Parts 43

5. Specifications and Safety Information 45

Specifications 45

Safety Information 46

Environmental conditions 46

Electromagnetic compatibility 46 EN55011/CISPR11 46 ICES/NMB-001 47

Introduction

Agilent 4500 Series FTIR Operation Manual 5

1. Introduction

The Agilent 4500 Series FTIR instruments are small sized, mid- infrared region spectrometer platforms specifically designed for portable, onsite chemical analysis outside the laboratory environment. The systems are small (21.6 x 29.2 x 19.1 cm; 8.5 x 11.5 x 7.5 in), lightweight (6.8 kg; 15 lb) and packaged in a weather- resistant enclosure suitable for outdoor use. They come standard with internal battery power for operation of up to 4 hours or can be operated with 110/220 volt AC power for extended use.

WARNING

Fire Hazard 4500 Series FTIR systems are NOT intrinsically safe. Use the system only in atmospheres that have been tested for flammable materials. If the equipment is used in a manner not specified in this manual, the protection provided by the equipment may be impaired.

The 4500 Series FTIR instruments use technology known as Fourier transform infrared (FTIR) spectroscopy, which is the current state- of-the-art technique for molecular compound identification and quantification. FTIR uses an infrared (IR) light source to pass through the sample and onto a detector, which precisely measures the amount of light absorbed by the sample. This absorbance creates a unique spectral fingerprint that is used to identify the molecular structure of the sample and determine the exact quantity of a particular compound in a mixture.

Introduction

6 Agilent 4500 Series FTIR Operation Manual

The heart of the Agilent FTIR spectrometer system is a patented Michelson interferometer design mounted on shock-dampening mechanisms to protect the components from shock and vibration in the field. This proprietary design is the key to successfully making FTIR technology compact, lightweight, rugged and field-portable.

The 4500 FTIR system is available in a number of different sampling configurations to accommodate the analysis of a range of liquids, powders, pastes and gels. The optimal use of the various configurations of the 4500 FTIR system are:

Agilent 4500t FTIR TumblIR System: For the rapid chemical analysis of liquids under ambient conditions. The Agilent 4500t FTIR is a TumblIR accessory-based instrument specifically designed for onsite oil analysis. This system is an ideal tool for oil analysis of diesel generators, wind farms, off-shore applications or marine applications.

Agilent 4500a FTIR ATR System: For the chemical analysis of liquids, powders, pastes and gels. The attenuated total reflectance (ATR) system is available in single reflection (most common) or three reflection versions.

The Agilent 4500 DialPath FTIR is for the rapid chemical analysis of liquids under ambient conditions that require multiple pathlengths.

All systems are equipped with a software user interface that is intuitive, simple to use and requires no specialized technical training. With the touch of a button, the system provides valuable information about the identity and amount of chemical substances present in a material.

Getting Started

Agilent 4500 Series FTIR Operation Manual 7

2. Getting Started Unpacking 7 Connecting power 10 Turning on the instrument 13 Starting the software 14 Performance verification 14

Unpacking To unpack your spectrometer system:

1 After receiving the Agilent 4500 Series FTIR delivery, do not immediately open the shipping container. Instead, place the shipment in a room-temperature environment and allow several hours for the contents of the container to reach the room ambient temperature. This is to avoid unnecessary condensation on the components prior to the initial setup and installation process.

2 The shipping enclosure should contain the items listed below. Inspect the enclosure closely to make sure all items have been removed from the shipment packaging. Also ensure that all the items in the packing list below have arrived undamaged and are in good working condition. Contact Agilent immediately if any items are found to be missing in shipment or damaged.

NOTE Keep all original packing material for storing, shipping and transporting the system in the future.

3 Remove the 4500 Series FTIR system from its shipping case and place it on a flat, stable surface. The instrument must be kept away from hot surfaces and any sources of electromagnetic interference.

Getting Started

8 Agilent 4500 Series FTIR Operation Manual

Locate the PC keyboard and mouse for ergonomically correct access.

Agilent 4500t FTIR packing list One Agilent 4500t FTIR mid-IR spectrometer system, including

TumblIR sampling accessory

One Agilent 4500 Series FTIR Operation Manual

One power cord

One installation disk

One shipping container

Options

Although the spectrometer system comes standard as shown above, there are a number of options available, including:

Laptop computer

Surfactant kit

Extra cords

Agilent 4500a FTIR packing list One Agilent 4500a FTIR mid-IR spectrometer system, including

appropriate sampling accessory

One Agilent 4500 Series FTIR Operation Manual

One power cord

One installation disk

One shipping container

Getting Started

Agilent 4500 Series FTIR Operation Manual 9

Options

Although the spectrometer system comes standard as shown above, there are a number of options available, including:

Laptop computer

Single-bounce ATR (includes sample press)

Multi-bounce ATR

Extra cords

Agilent 4500 DialPath FTIR packing list One Agilent 4500 DialPath FTIR mid-IR spectrometer system,

including DialPath accessory

One Agilent 4500 Series FTIR Operation Manual

One power cord

One installation disk

One shipping container

Options

Although the spectrometer system comes standard as shown above, there are a number of options available, including:

Laptop computer

Extra cords

Getting Started

10 Agilent 4500 Series FTIR Operation Manual

Connecting power To connect power to the spectrometer system:

1 Before connecting the power cord to the power source, remove the connector cap and then insert the power cord female connector provided into the male power plug located on the left side of the spectrometer system.

2 Connect the other end of the power cord to the power source. The appropriate power supply for your location will be provided with the system. When the system is not in field use, keep it plugged in to the local AC power to ensure a fully-charged battery pack (see Figure 1).

Figure 1. Attaching the power cord

CAUTION To prevent any power startup damage or problems, connect the power cord to the spectrometer system first and then to the power outlet.

CAUTION To avoid damage to the system due to power surges or a faulty power source, always use a UL approved power surge protection strip between the power outlet source and the system power cord.

CAUTION All cords must be kept away from high traffic areas. The system could sustain damage to the apparatus or adapters if excessive strain to the power cord connections occurs.

Power button

USB

Power

Getting Started

Agilent 4500 Series FTIR Operation Manual 11

Once AC power is connected, the power button located next to the power and USB connectors on the left side of the 4500 FTIR, will appear a solid red color. This means the battery pack is being charged, but the instrument is off.

NOTE The 4500t FTIR contains a Molicel lithium-ion rechargeable battery pack. Agilent have fully charged the 4500t system prior to shipment, but the system should also be plugged into a power outlet when not in use. The 4500t battery life under continuous use is approximately 3.5 hours. It is recommended to allow the battery pack to be re-charged at initial setup prior to turning on the power to the instrument.

Molicel lithium-ion rechargeable battery pack specifications:

Capacity (nominal): 6600 mAh

Nominal voltage: 11.1 V

Energy: 73.2 Wh

Size: 149.5 x 89.3 x 20 mm

(5.8 x 3.5 x 0.8 in)

Weight: 480 g (1.1 lb)

Battery operating specifications:

Operating voltage: 12.6 to 9.0 V

Charge voltage: 12.6 V

Cutoff voltage: 7.5 V

Temperature range

Discharge: -20 to 60 C (-4 to 140 F)

Charge: 0 to 45 C (32 to 113 F)

Maximum discharge current: 3.5 A (continuous)

Maximum charge current: 3.5 A

Getting Started

12 Agilent 4500 Series FTIR Operation Manual

Power cord selection The following power plugs can be used:

Figure 2. Suitable power cords

When replacing the mains power cord, use only a mains power cord with a rating equivalent to the one supplied with the instrument.

Getting Started

Agilent 4500 Series FTIR Operation Manual 13

Turning on the instrument To turn on the instrument:

1 Press thepower button of the 4500 Series FTIR system and hold for two (2) seconds. Initially the light will blink between red and green while the firmware is being loaded. This process should take less than 30 seconds. When the LED light illuminates solid green, the instrument is now ready to use.

2 The spectrometer must have a warmup period of 5 minutes before reliable analysis may begin.

When finished using the instrument, press the green power button again to turn off the system. The LED light will then turn red.

Power switch LED status The power button contains a two-colored LED. The color displayed on the LED can indicate the state of the system. The table below lists the colors of the LED and the status of the instrument.

Table 1. Power switch LED status

Status LED color Action (% duty cycle)

System OFF No LED illumination N/A System OFF Red 100% System startup Red/green Green 0.5 s on / Red 0.5 s on System ON Green 100% Low battery Green 50% (0.5 s on / 0.5 s off) Critically low battery Red 50% (0.5 s on / 0.5 s off) Dead battery No LED illumination N/A Firmware update Red/green Green blinks rapidly twice then red blinks

rapidly twice

CAUTION The power button is a momentary switch to avoid accidental power off. In order to turn the system on or off, hold the button down for two (2) seconds.

Getting Started

14 Agilent 4500 Series FTIR Operation Manual

Starting the software For detailed instructions on initial software logon and user management, refer to the MicroLab Software Operation Manual.

For additional instructions on adding a user to the system and other initial software setup procedures, refer to the MicroLab Software Operation Manual.

Performance verification The 4500 Series FTIR spectrometer systems have been thoroughly tested at the factory, so no alignment steps are required. However, it is recommended to run the performance test initially to ensure the instrument is running properly. To run and interpret the performance test, refer to the MicroLab Software Operation Manual. The performance test measures the energy level of the instrument (based on the interferogram voltage or height). A successful test will be indicated by a green circle at the top of the software screen. You are now ready to analyze a sample. A yellow or red circle indicates the instrument is operating outside of the factory-defined parameters. These parameters are listed on the Advanced Features software page.

NOTE If the circle at the top of the software screen is yellow or red, contact Agilent technical support for assistance.

Getting Started

Agilent 4500 Series FTIR Operation Manual 15

Like any measurement device, it is important to verify that the 4500 Series FTIR instrument is performing properly before using the system to make critical measurements. The instrument provides both diagnostic values and performance validation tests to demonstrate the systems performance. The diagnostic values provide an easy to understand, quick assessment of the instruments function. If the instrument is not functioning properly, one of the diagnostic values will be out of specification. Typically, the instrument will not allow data collection if the diagnostic values are out of specification. Performance validation tests are longer, more involved tests that measure how well the instrument is working. The tests listed under Performance validation check the instruments sensitivity (performance), stability and frequency precision (laser calibration).

Each industry has different requirements for instrument verification. In general, the diagnostic values should be checked on a daily or weekly basis. The instrument will not collect data if the diagnostic values are grossly out of specification, but it is good practice to verify that the instrument is working properly. Performance validation should be run on a quarterly or bi-annual basis. Highly-regulated industries may require the performance validation to be run monthly, depending on the use of the instrument. The performance validation verifies the key aspects to the instruments ability to measure good data. If the performance validation tests are within specification, the instrument should provide data that works well with methods developed for the 4500 Series FTIR spectrometer. As with any instrument, however, results can always be verified by running a known sample with the sample specific method.

Diagnostic values The following values can also be viewed on the Diagnostics page in the MicroLab PC software. These values can be used to determine if the instrument is working properly. They can be used on a daily basis to determine that the instrument is operating as intended. In each case, the Optimal value indicates that the system is running at its intended performance level. The Marginal value indicates that the instrument is still functioning, but at a lower performance level. The Critical value indicates that the system is not working correctly. Contact Agilent technical support for assistance if there is a problem with your instrument.

Getting Started

16 Agilent 4500 Series FTIR Operation Manual

Table 2. Diagnostic values

Value Optimal (green) Marginal (yellow) Critical (red) Comment

Energy (centerburst)

26,00021,000 >30,000 or <15,000

>31,000 or <10,000

Indicates the overall alignment and proper gain adjustment for the system.

Battery life AC or >30 min

305 min <5 min

Source 1.9 A >2.2 or <1.6

>2.5 or <1.0

Indicates a problem with the source control voltage or that the source has burnt out. Both voltage and amperage are displayed; however, amperage provides a sufficient diagnostic.

Laser signal 15,0003,000 >15,000 or <3,000

>17,000 or <2,000

Can verify gross alignment errors even if the reflectance cap is not in place.

Detector temperature

3544 <35 or >44

<30 or >48

Indicates a problem with the cooling circuitry or an ambient temperature over the specified range.

CPU temperature

1075 >75 >80 Indicates the ambient temperature over the specified range.

Getting Started

Agilent 4500 Series FTIR Operation Manual 17

Performance validation The MicroLab PC software has three tests appropriate for performance validation of the instrument. All of these tests can be accessed from the Advanced Features, System Check page of the MicroLab PC software. The 4500 Series FTIR system should be warmed up for at least 30 minutes before conducting any of these tests. These tests can be run on a quarterly, bi-annual or annual basis to determine that the instrument is performing within its specification.

Performance (signal-to-noise) test This test measures the signal-to-noise level at two regions of the IR spectrum: 2500 cm-1 and 1000 cm-1. The signal-to-noise is defined as the reciprocal of the root mean squared (RMS) noise in the defined region for a blank sample measured with a blank background. Both the background and sample are measured at 4 cm-1 resolution with a one minute collection time. This test takes 2 minutes per test. The user can specify a number of tests to be conducted. At least 10 tests should be collected in order to obtain an accurate picture of the performance.

Stability test

This test measures the short-term stability at two regions of the spectrum: 3000 cm-1 and 1000 cm-1. Stability is a measurement of the baseline differences observed over the selected time period. The test measures a background at the beginning, then one sample every minute for the duration of the test as specified in the Number of minutes field in the software. The test results are expressed as %Transmittance (difference versus 100%) of maximum deviation during the stability test.

Getting Started

18 Agilent 4500 Series FTIR Operation Manual

Laser Frequency Calibration test

The Laser Frequency Calibration test measures the frequency (X- axis) accuracy. The test is conducted by measuring a spectrum of a polystyrene film. Absorbance frequencies from this spectrum are compared to frequencies set by NIST SRM 1921 polystyrene film. The software allows administrative-level users to use the test results to set the laser calibration. Laser calibrations should only be set after consultation with an Agilent technical support engineer. For this test, a background is measured first. After the background collection, a spectrum of polystyrene film is measured as instructed by the software. The polystyrene test sample must be pressed firmly against the diamond sample interface during the sample collection.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 19

3. Analyzing Samples Lube samples with the Agilent 4500t FTIR 19 Agilent 4500t FTIR with a TumblIR 24 Agilent 4500a FTIR with an ATR 28 Agilent 4500 DialPath FTIR 35

Lubrication samples with the Agilent 4500t FTIR The Agilent 4500t FTIR instrument is provided with a dedicated oil and lubrication sampling interface called the TumblIR. The TumblIR is a proprietary liquid transmission sampling accessory designed and manufactured exclusively by Agilent to optimize the analysis of lubrication samples. When comparing the TumblIR to traditional liquid cells for general analytical laboratories, the TumblIR makes it much easier to prepare, load, analyze and clean the sample.

The TumblIR operates in two modes: sample loading/cleaning, and sample analysis.

In the sample loading and cleaning mode, the TumblIR is rotated so the accessory window is facing up (see Figure 3). It is in this position that the sample mounting area can be easily accessed for loading the sample into place and for cleaning the sampling surfaces before the next sample is analyzed.

Analyzing Samples

20 Agilent 4500 Series FTIR Operation Manual

Figure 3. TumblIR with accessory window facing up

In the sample analysis mode, the TumblIR is rotated such that the accessory optical window is facing down towards the 4500t FTIR sample mounting area. In this position, infrared (IR) energy passes through the sample making measurement possible. Be sure to rotate the TumblIR arm completely around until it reaches the detent and snaps into position. This detent keeps the accessory stationary during sample measurement (see Figure 4).

Figure 4. TumblIR with accessory window facing down

Bottom window (2 mm diameter yellow surface)

Top window

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 21

When in the sample analysis mode, the TumblIR pathlength is 100 micrometers, an optimal pathlength for mid-IR analysis of lubrication samples. The alignment of the accessory is pre-set at the factory and so there is no adjustment required.

The steps involved with analyzing a lubrication sample with the 4500t FTIR are:

1 Clean the sample windows.

2 Collect a background spectrum.

3 Collect a sample spectrum.

Cleaning the TumblIR accessory To clean the TumblIR accessory:

1 Rotate the TumblIR arm so the optical sensor is pointing upward. 2 Clean the top window first, then clean the bottom mounting

window, indicated in Figure 3.

NOTE Only use soft cotton cloth, such as found on cotton swabs or a suitable substitute to clean the optical sensor and sampling area.

CAUTION The windows are made of an IR-transmitting material called zinc selenide (ZnSe). ZnSe is a relatively durable material, but can be easily scratched or damaged if too much pressure is applied during cleaning or if an abrasive material is used, such as Kimwipes. Materials such as cotton swabs dipped in acetone are recommended for cleaning.

CAUTION ZnSe is relatively chemically-resistant to materials with a pH range between 4 and 9, but there are some materials, such as strong acids or heavily basic materials, that can harm ZnSe. Avoid having materials in contact with the ZnSe window that are outside of this recommended pH range.

Analyzing Samples

22 Agilent 4500 Series FTIR Operation Manual

CAUTION Do not break the spectrometer seal and attempt to clean interior surfaces. Breaking the seal will void the warranty.

Collecting a background spectrum To ensure accuracy of the measurement, it is recommended that the system is configured in the software to collect a background spectrum before every sample is analyzed. This provides a baseline profile of the system conditions with no sample loaded on the instrument. By collecting a background automatically before each sample measurement, negative effects of changes in the environment can be avoided.

For detailed software instructions for collecting a background, refer to the MicroLab Software Operation Manual.

CAUTION To ensure an accurate background spectrum is collected, perform a visual inspection of the ZnSe window surfaces looking for any haze or film present on the windows from measuring the previous sample. If a film is observed, repeat the cleaning procedures above until the window surfaces are clear of any residue.

Measuring a sample To apply a lubrication sample to the system:

1 Open the sampling device (TumblIR) by rotating the arm counterclockwise (see Figure 3).

2 The bottom window should be visible at this point. Place a small amount of material on the sample window located on the TumblIR base plate. The bottom window is the 2 mm diameter yellow material held in place by the surrounding metal disk.

3 Ensure that the sample covers the entire surface area of the bottom window (see Figure 5).

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 23

Figure 5. Applying a sample to the bottom window on the TumblIR

In the case of a volatile sample, such as with fuels analysis, larger amounts of sample can be applied without concern of leakage or damage to the instrument, however, using the smallest amount of sample possible will ease in the cleaning process.

Although it is safe to run a variety of lubrication samples, including aqueous solutions or even thick pastes such as grease, the TumblIR is not to be used with any solid samples, such as hard graphite lubricant. Use of the TumblIR with solid samples will damage the ZnSe windows.

CAUTION The sample mounting window and accessory window are made from ZnSe. ZnSe can be damaged by samples with a pH below 4 and above 9. Only measure samples with a pH between 5 and 9.

CAUTION ZnSe windows can be easily scratched by hard or abrasive samples. Avoid use of samples that may scratch the surface of the windows.

CAUTION Do not open your system and attempt to clean interior surfaces. Opening your system will void the warranty.

Analyzing Samples

24 Agilent 4500 Series FTIR Operation Manual

4 Close the device by rotating the arm clockwise until it clicks into place (see Figure 4).

5 Click the NEXT button on the software screen to proceed with the analysis as shown below.

6 For detailed software instructions for measuring a sample, refer to the MicroLab Software Operation Manual.

7 After completing the sample measurement, immediately clean the sample from the accessory using the instructions provided above. It is important to make sure both the sample mounting window and the accessory window are free of any residue from the previous sample.

8 For detailed software instructions on reviewing results and handling sample data, refer to the MicroLab Software Operation Manual.

Agilent 4500t FTIR with a TumblIR The Agilent 4500t FTIR instrument can be provided with a dedicated sampling interface called the TumblIR accessory. The TumblIR is a proprietary liquid transmission sampling accessory designed and manufactured exclusively by Agilent to optimize the analysis of many liquid, paste or gel samples. When comparing the TumblIR to traditional liquid cells for general analytical laboratories, the TumblIR makes it much easier to prepare, load, analyze and clean the sample.

The TumblIR operates in two modes: sample loading/cleaning, and sample analysis.

In the sample loading and cleaning mode, the TumblIR is rotated so the accessory window is facing up (see Figure 3). It is in this position that the sample mounting area can be easily accessed for loading the sample into place and for cleaning the sampling surfaces before the next sample is analyzed.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 25

In the sample analysis mode, the TumblIR is rotated such that the accessory optical window is facing down towards the 4500t FTIR sample mounting area. In this position, infrared (IR) energy passes through the sample making measurement possible. Be sure to rotate the TumblIR arm completely around until it reaches the detent and snaps into position. This detent keeps the accessory stationary during sample measurement (see Figure 4).

When in the sample analysis mode, the TumblIR pathlength is 100 microns, an optimal pathlength for mid-IR analysis of many liquid, paste or gel samples. The alignment of the accessory is pre-set at the factory and so there is no adjustment required.

The steps involved with analyzing a sample on the 4500t FTIR system with a TumblIR are:

1 Clean the sample windows.

2 Collect a background spectrum.

3 Collect a sample spectrum.

Cleaning the accessory To clean the TumblIR accessory:

1 Rotate the TumblIR arm so the optical sensor is pointing upward.

2 Clean the top window first, then clean the bottom window, indicated in Figure 3.

NOTE Only use soft cotton cloth, such as found on cotton swabs or a suitable substitute to clean the optical sensor and sampling area.

CAUTION The windows are made of an IR-transmitting material called zinc selenide (ZnSe). ZnSe is a relatively durable material, but can be easily scratched or damaged if too much pressure is applied during cleaning or if an abrasive material is used, such as Kimwipes. Materials such as cotton swabs dipped in acetone are recommended for cleaning.

Analyzing Samples

26 Agilent 4500 Series FTIR Operation Manual

CAUTION ZnSe is relatively chemically-resistant to materials with a pH range between 4 and 9, but there are some materials, such as strong acids or heavily basic materials, that can harm ZnSe. Avoid having materials in contact with the ZnSe window that are outside of this recommended pH range.

CAUTION Do not break the spectrometer seal and attempt to clean interior surfaces. Breaking the seal will void the warranty.

Collecting a background spectrum To ensure accuracy of the measurement, it is recommended that the system is configured in the software to collect a background spectrum before every sample is analyzed. This provides a baseline profile of the system conditions with no sample loaded on the instrument. By collecting a background automatically before each sample measurement, negative effects of changes in the environment can be avoided.

For detailed software instructions for collecting a background, refer to the MicroLab Software Operation Manual.

CAUTION To ensure an accurate background spectrum is collected, perform a visual inspection of the ZnSe window surfaces looking for any haze or film present on the windows from measuring the previous sample. If a film is observed, repeat the cleaning procedure above until the window surfaces are clear of any residue.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 27

Measuring a liquid sample To apply a liquid sample to the system:

1 Open the sampling device (TumblIR) by rotating the arm counterclockwise (see Figure 3).

2 The bottom window should be visible at this point. Place a small amount of material on the bottom window located on the TumblIR base plate. The sample window is the 2 mm diameter yellow material held in place by the surrounding metal disk.

3 Ensure that the sample covers the entire surface area of the bottom window (see Figure 5). In the case of a volatile sample, such as with fuels analysis, larger amounts of sample can be applied without concern of leakage or damage to the instrument; however, using the smallest amount of sample possible will ease in the cleaning process. Although it is safe to run a variety of liquid samples, including, aqueous solutions or even thick pastes, such as grease, the TumblIR is not to be used with any solid or powder samples, such as tablets. Use of the TumblIR with solid samples will damage the ZnSe windows or modify the pre-set transmission pathlength.

CAUTION The top and bottom windows are made from ZnSe. ZnSe can be damaged by samples with a pH below 4 and above 9. Only measure samples with a pH between 5 and 9.

CAUTION ZnSe windows can be easily scratched by hard or abrasive samples. Avoid use of samples that may scratch the surface of the windows.

CAUTION Do not break the spectrometer seal and attempt to clean interior surfaces. Breaking the seal will void the warranty.

Analyzing Samples

28 Agilent 4500 Series FTIR Operation Manual

Optimum transmission pathlength is one important consideration when using the TumblIR for a range of liquid sample types. Because the TumblIR pathlength is pre-aligned and fixed at 100 microns, some sample types may not give optimum results, such as high IR absorbing materials.

4 Close the device by rotating the arm clockwise until it clicks into place (see Figure 4).

5 Click the NEXT button on the software screen to proceed with the analysis.

6 For detailed software instructions for measuring a sample, refer to the MicroLab Software Operation Manual.

7 After completing the sample measurement, immediately clean the sample from the accessory using the instructions provided above. It is important to make sure both the top and bottom windows are free of any residue from the previous sample.

8 For detailed software instructions on reviewing results and handling sample data, refer to the MicroLab Software Operation Manual.

Agilent 4500a FTIR with an ATR The Agilent 4500a FTIR instrument can be provided with a dedicated sampling interface called the Attenuated Total Reflectance (ATR) accessory. The ATR takes advantage of the physical properties of light when encountering two materials with differences in index of refraction. When coming in contact with a sample having a different index of refraction, the infrared (IR) light creates an evanescent wave, which provides a very small and specific depth of penetration into the sample before reflecting back into the detector of the 4500a FTIR system. This small and consistent pathlength provides the advantage of no sample preparation required to get good measurement results on a variety of samples. The key to obtaining good results with an ATR accessory is making good contact between the sample and ATR crystal of the sampling device. The ATR technique can be used for analysis of liquids, pastes, powders and even some solid samples.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 29

All Agilent ATR accessories use a type IIa diamond crystal as the interface between the sample and the IR energy. The diamond provides the advantage of extreme hardness as well as chemical resistivity. Diamond can accept samples with a pH range from 1 to 14, which means hard or abrasive samples and even strong acids can be safely analyzed. Agilent offers two choices of ATR sampling accessories: a single reflection or triple reflection DuraDisk system. The diamond is the worlds most durable substance and the ZnSe substrate is used for maximum IR signal.

The single reflection ATR is most suitable for higher absorbing samples such as rubber, polymers, paints and fibers. Powder and solid samples are best measured on the single reflection ATR as well due to the sample press device that can apply high pressure to powder and solid samples to ensure good contact with the diamond sampling surface. The single reflection ATR is also a good choice when the amount of available sample is limited. The single reflection diamond has a 1 mm diameter sampling surface with 200 m active area and provides approximately 2 micron depth of penetration for IR energy at 1700 cm-1. The single reflection ATR protrudes slightly above the metal mounting plate.

The triple reflection ATR is most suitable for liquid samples with lower IR absorption properties. The triple reflection ATR has a 2 mm diameter sampling surface with 200 m active area and provides approximately 6 micron effective penetration depth for IR energy at 1700 cm-1. The triple reflection ATR is mounted flush with the metal mounting plate and does not operate with a sample press device.

CAUTION Although diamond is a very hard material, the ATR window is relatively thin and can crack under extreme pressure conditions. Ensure that the sample makes contact with the entire surface area of the diamond and not just a point within the diamond. Avoid the use of the sample press on samples that may be sharp or pointed.

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30 Agilent 4500 Series FTIR Operation Manual

To open the sample press:

1 Pull the bottom spring loaded locking pin away from the sample press body.

2 Pull the sample press up as far as it can go.

Figure 6. Positioning the sample press In the sample loading and cleaning mode, the sample press should be in the highest position, so the sample press tip is well above the diamond window sampling surface (see Figure 7). It is in this position that the sample mounting area can be easily accessed for loading the sample into place and for cleaning the sampling surfaces before the next sample is analyzed.

NOTE Only the single reflection ATR version has a sample press device.

Figure 7. Sample press in highest position providing easy access for sample loading and cleaning

Diamond ATR crystal Sample press tip

Sample press

Spring loaded locking pin

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 31

In the sample analysis mode, the ATR sample press is lowered such that the sample press tip is in contact with the sample. In this position, contact is made between the sample and the IR energy emitting from the diamond ATR window (see Figure 8).

NOTE If the sample is a liquid or paste, the sample press does not need to be used at all. In this case, you are now ready to proceed with the analysis. Only liquid or paste samples should be used with the triple reflection ATR accessory.

Figure 8. Sample press lowered for analysis

When in the sample analysis mode, the ATR sample pathlength is fixed based on the number of reflections in the ATR. The alignment of the accessory is also pre-set at the factory and so there is no optical or mechanical adjustment required.

The steps involved with analyzing a sample with the 4500a FTIR and an ATR are:

1 Clean the ATR sample mounting window.

2 Collect a background spectrum.

3 Collect a sample spectrum.

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32 Agilent 4500 Series FTIR Operation Manual

Cleaning the accessory To clean the ATR accessory:

1 Open the ATR sample press arm by lifting back until the sample press tip reaches the top of its travel.

2 Clean the sample press tip first, then clean the sample mounting window, indicated in Figure 7.

NOTE Kimwipes or a suitable substitute (such as cotton swabs) should be used to clean the sensor and sampling area. Clean the sample interface and press with a suitable solvent such as acetone, methanol, ethanol or isopropyl alcohol.

CAUTION Do not break the spectrometer seal and attempt to clean interior surfaces. Breaking the seal will void the warranty.

Collecting a background spectrum To ensure accuracy of the measurement, it is recommended that the system is configured in the software to collect a background spectrum before every sample is analyzed. This provides a baseline profile of the system conditions with no sample loaded on the instrument. By collecting a background automatically before each sample measurement, negative effects of changes in the environment can be avoided.

For detailed software instructions for collecting a background, refer to the MicroLab Software Operation Manual.

CAUTION To ensure an accurate background spectrum is collected, perform a visual inspection of the diamond ATR sample mounting surface, looking for any haze or film present on the diamond from measuring the previous sample. If a film is observed, repeat the cleaning procedure above until the diamond surface is clear of any residue.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 33

Collecting a sample spectrum To load an ATR sample into the system:

1 Open the sample press by twisting the knurled nut until the sample press tip is elevated slightly from the diamond ATR surface (see Figure 9).

Figure 9. Opening the sample press 2 The diamond sampling window should be visible at this point.

Place a small amount of material to be measured on the diamond ATR crystal. The crystal is the clear, circular shaped material held in place by the surrounding metal disk.

3 Ensure that the sample covers the entire surface area of the diamond crystal. In the case of a volatile sample, larger amounts of sample can be applied without concern of leakage or damage to the instrument. However, using the smallest amount of sample possible will ease in the cleaning process.

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34 Agilent 4500 Series FTIR Operation Manual

CAUTION The sample mounting window and accessory window are made from type IIa synthetic diamond, which is extremely chemically-resistant. However, it is still possible the diamond or metal mounting plate can be damaged by extreme samples. Only measure samples with a pH between 1 and 14. Do not leave extremely acidic samples on the metal mounting plate for an extended time.

CAUTION Although diamond is a very hard material, the ATR window is relatively thin and can crack under extreme pressure conditions. Ensure that the sample makes contact with the entire surface area of the diamond and not just a point within the diamond. Avoid the use of the sample press on samples that may be sharp or pointed.

CAUTION Do not open your system and attempt to clean interior surfaces. Opening your system will void the warranty.

4 If the sample is a liquid or paste, the sample press does not need

to be used at all. In this case, you are now ready to proceed with the analysis.

NOTE Only liquid or paste samples should be used with the triple reflection ATR accessory.

If the sample is a powder or solid, the sample press must be in contact with the sample. To make contact, twist the knurled nut until it reaches the detent (snap-in) position. The spring-loaded sample press tip is set to apply 15 pounds of force assuming a 0.03 in sample thickness.

5 Click the NEXT button on the software screen to proceed with the analysis.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 35

6 For detailed software instructions for measuring a sample, refer to the MicroLab Software Operation Manual.

7 After completing the sample measurement, immediately clean the sample from the accessory using the instructions provided above. It is important to make sure both the sample mounting window and the sample press tip (for single reflection only) are free of any residue from the previous sample.

8 For detailed software instructions on reviewing results and handling sample data, refer to the MicroLab Software Operation Manual.

Agilent 4500 DialPath FTIR The Agilent 4500 DialPath FTIR instrument is provided with a dedicated sampling interface (the DialPath), which is based on the same technology as the TumblIR accessory. The DialPath uses the TumblIRs patented liquid transmission sampling accessory, designed and manufactured exclusively by Agilent, to optimize the analysis of many liquid, paste or gel samples. When compared to traditional liquid cells for general analytical laboratories, the DialPath makes it much easier to prepare, load, analyze and clean the sample, while giving the user the flexibility of choosing from three factory-set pathlengths.

The DialPath operates in two modes: sample loading/cleaning, and sample analysis.

In the sample loading and cleaning mode, the DialPath is rotated so the accessory window is facing up (see Figure 10). It is in this position that the sample mounting area can be easily accessed for loading the sample into place and cleaning the sampling surfaces before the next sample is analyzed.

Analyzing Samples

36 Agilent 4500 Series FTIR Operation Manual

Figure 10. DialPath with accessory window facing up

In sample analysis mode, the DialPath is rotated such that the accessory optical window is facing down towards the 4500 DialPath FTIR sample mounting area. In this position, infrared (IR) energy passes through the sample, making measurement possible. Make sure that you rotate the DialPath arm completely around until it reaches the detent and snaps or clicks into position. This detent keeps the accessory stationary during sample measurement (see Figure 11).

NOTE The background measurement should be taken at the same pathlength that the sample will be measured at.

Bottom window (2 mm diameter yellow surface)

Position 1 ZnSe window

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 37

Figure 11. Rotating the DialPath so that the accessory optical window is facing down

When in sample analysis mode, the DialPath pathlength is set to a predetermined factory-set value in microns. The alignment of the accessory is pre-set at the factory and so there is no adjustment required.

The steps involved with analyzing a sample with the 4500 DialPath FTIR are:

1 Clean the sample window.

2 Collect a background spectrum.

3 Collect a sample spectrum.

Cleaning the DialPath accessory Rotate the DialPath so that optical sensor #2 is pointing upward. Clean the window of the position used first, then clean the bottom window, indicated in Figure 10. If using Position 2, you will find it necessary to clean either Position 3 or 1, depending on the direction the DialPath was rotated in.

Analyzing Samples

38 Agilent 4500 Series FTIR Operation Manual

NOTE Only use soft cotton cloth, such as that found on cotton swabs, or a suitable substitute to clean the optical sensor and sampling area.

CAUTION The windows are made of an IR-transmitting material called zinc selenide (ZnSe). ZnSe is a relatively durable material, but can be easily scratched or damaged if too much pressure is applied during cleaning, or if an abrasive material such as Kimwipes is used. Materials such as cotton swabs dipped in acetone are recommended for cleaning (see Figure 12).

Figure 12. Cleaning the Position 3 window and sample substrate

CAUTION ZnSe is relatively chemically-resistant to materials with a pH range between 4 and 9, but there are some materials, such as strong acids or heavily basic materials, that can harm ZnSe. Avoid having materials in contact with the ZnSe that are outside of this recommended pH range.

CAUTION Do not break the spectrometer seal and attempt to clean interior surfaces. Breaking the seal will void the warranty.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 39

Collecting a background spectrum To ensure accuracy of the measurement, it is recommended that the system is configured in the software to collect a background spectrum before every sample is analyzed. This provides a baseline profile of the system conditions with no sample loaded on the instrument. By collecting a background automatically before each sample measurement, negative effects of changes in the environment can be avoided.

For detailed software instructions for collecting a background, refer to the MicroLab Software Operation Manual.

CAUTION To ensure an accurate background spectrum is collected, perform a visual inspection of the ZnSe window surfaces looking for any haze or film present on the windows from measuring the previous sample. If a film is observed, repeat the cleaning procedure above until the window surfaces are clear of any residue.

Measuring a liquid sample To apply a liquid sample to the system:

1 Open the sampling device (DialPath) by rotating the arm (see Figure 10).

2 The bottom window should be visible. Place a small amount of material on the bottom window located on the DialPath base plate. The sample window is the 2 mm diameter yellow material held in place by the surrounding metal disk.

3 Ensure the sample covers the entire surface area of the bottom window (see Figure 13). In the case of a volatile sample, such as with fuels analysis, larger amounts of sample can be applied without concern of leakage or damage to the instrument, however, using the smallest possible amount of sample will ease in the cleaning process.

Analyzing Samples

40 Agilent 4500 Series FTIR Operation Manual

Figure 13. Applying a sample to the DialPath bottom window

Although it is safe to run a variety of liquid samples, including, aqueous solutions or even thick pastes such as grease, the DialPath is not to be used with any solid or powder samples, such as tablets. Use of the DialPath with solid samples will damage the ZnSe windows or modify the pre-set transmission pathlength.

CAUTION The top and bottom windows are made from ZnSe. ZnSe can be damaged by samples with a pH below 4 and above 9. Only measure samples with a pH between 4 and 9.

CAUTION ZnSe windows can be easily scratched by hard or abrasive samples. Avoid use of samples that may scratch the surface of the windows.

CAUTION Do not break the spectrometer seal and attempt to clean interior surfaces. Breaking the seal will void the warranty.

Analyzing Samples

Agilent 4500 Series FTIR Operation Manual 41

Optimum transmission pathlength is one important consideration when using the DialPath for a range of liquid sample types. Because the DialPath pathlengths are pre-aligned and fixed at, some sample types may not give optimum results, such as high IR absorbing materials.

4 Close the device by rotating the arm clockwise until it clicks into place (see Figure 11).

5 Click the NEXT button on the software screen to proceed with the analysis.

6 For detailed software instructions for measuring a sample, refer to the MicroLab Software Operation Manual.

7 After completing the sample measurement, immediately clean the sample from the accessory using the instructions provided above. It is important to make sure both the top and bottom windows are free of any residue from the previous sample as well as adjacent windows to minimize any cross-contamination issues.

8 For detailed software instructions on reviewing results and handling sample data, refer to MicroLab Software Operation Manual. For additional instructions on editing of methods and reviewing data using the MicroLab PC Software, refer to the MicroLab Software Operation Manual.

Analyzing Samples

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Spare Parts

Agilent 4500 Series FTIR Operation Manual 43

4. Spare Parts

Part number Description

430 - 0001 Agilent 4500 Series FTIR power supply 430 - 0018 Agilent 4500 Series FTIR USB cable

For sampling accessories, service contracts, repair and refurbishment services, contact Agilent.

Spare Parts

44 Agilent 4500 Series FTIR Operation Manual

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Specifications and Safety Information

Agilent 4500 Series FTIR Operation Manual 45

5. Specifications and Safety Information

Specifications 45 Safety Information 46 Environmental conditions 46 Electromagnetic compatibility 46

Specifications Interferometer geometry: High-throughput Michelson

interferometer with fixed and moving flat mirrors

Standard beamsplitter: Zinc selenide

Maximum spectral resolution: 4 cm-1

Laser: Low-powered solid state

Infrared source: Wire-wound element

Spectral range: 4000 to 650 cm-1

Detector: 1.3 mm diameter, thermoelectrically-cooled dTGS

Power supply: 100 to 240 V AC, 3 A, 50 to 60 Hz

Specifications and Safety Information

46 Agilent 4500 Series FTIR Operation Manual

Safety Information

Agilent 4500 Series FTIR systems contain a low-powered solid state laser required for operation, but, in no operation or maintenance mode will the operator be exposed to radiation levels that exceed those that define a Class 1 laser product.

Class 1 Laser Product

Complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser Notice No. 50, dated June 24, 2007 CDRH Accession No. 0321242 IEC 60825-1:2014.

Environmental conditions Operating Temperature: 0 to 50 C; 32 to 122 F (during use)

Storage Temperature: Minus 30 to 60 C; -22 to 140 F (storage)

Humidity: Up to 95%, non-condensing

Altitude: Up to 2000 m

Electromagnetic compatibility

EN55011/CISPR11 Group 1 ISM equipment: group 1 contains all ISM equipment in which there is intentionally generated and/or used conductively coupled radio- frequency energy which is necessary for the internal functioning of the equipment itself.

Specifications and Safety Information

Agilent 4500 Series FTIR Operation Manual 47

Class A equipment is equipment suitable for use in all establishments other than domestic and those directly connected to a low voltage power supply network which supplies buildings used for domestic purposes.

This device complies with the requirements of CISPR11, Group 1, Class A as radiation professional equipment. Therefore, there may be potential difficulties in ensuring electromagnetic compatibility in other environments, due to conducted as well as radiated disturbances.

Operation is subject to the following two conditions:

1 This device may not cause harmful interference.

2 This device must accept any interference received, including interference that may cause undesired operation.

If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try one or more of the following measures:

1 Relocate the radio or antenna.

2 Move the device away from the radio or television.

3 Plug the device into a different electrical outlet, so that the device and the radio or television are on separate electrical circuits.

4 Make sure that all peripheral devices are also certified.

5 Make sure that appropriate cables are used to connect the device to peripheral equipment

6 Consult your equipment dealer, Agilent Technologies, or an experienced technician for assistance.

Changes or modifications not expressly approved by Agilent Technologies could void the users authority to operate the equipment.

ICES/NMB-001 This ISM device complies with Canadian ICES- 001.

Cet appareil ISM est conforme la norme NMB-001 du Canada.

Specifications and Safety Information

48 Agilent 4500 Series FTIR Operation Manual

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www.agilent.com

In This Guide The guide describes the following:

Introduction

Getting Started

Analyzing Samples

Spare Parts

Specifications and Safety Information

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