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Manual | Users Manual | 1017.06 KiB | August 08 2008 | |||
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1 | Internal Photos | August 08 2008 | ||||||
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1 | Manual | Users Manual | 1017.06 KiB | August 08 2008 |
emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev. 1 - august 2008 ______________________________________________________________________________________________________________________________ www.emka.fr emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 product information and technical support www.emka.fr / www.emkatech.com emka TECHNOLOGIES corporate headquarters emka TECHNOLOGIES SA 59, bd. Gnral Martial Valin 75015 Paris - France phone: + 33 (0)1 40 60 76 00 fax: +33 (0)1 40 60 65 55 sales and support office for North America emka TECHNOLOGIES INC 115 Hillwood Ave., Suite 203 Falls Church, VA 22046 - USA phone: +1 (703) 237-9001 fax: +1 (703) 237-9006 To comment this user manual, please send your remarks to documentation@emka.fr . 2008 emka TECHNOLOGIES SA. All rights reserved. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 2 the telemetry system geographical region of use emkaPACK transmitters are specific to the geographical region of use. The part number (P/N) on the back of the device (see figure) indicates the geographical region of use of your device (see table below). geographical part number (p/n) compliance notice region of use Europe only TLE-E03 US and Canada only TLE-E03-US FCC ID : V9VTLEE03US IC
: 7689A-TLEE03US for use in US only This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures:
reorient or relocate the receiving antenna increase the separation between the equipment and receiver connect the equipment to an outlet on a circuit different to that of the receiver consult emka TECHNOLOGIES ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 3 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 You do not need to apply for a license to operate the emkaPACK non-invasive telemetry transmitter. Do not attempt to open the emkaPACK. Any changes or modifications in the emkaPACK that are not expressly approved by emka TECHNOLOGIES could void your authority to operate this equipment. emka TECHNOLOGIES SA, 59, boulevard Gnral Martial Valin, 75015, Paris, France, declares that device TLE-E03-US complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) the device may not cause harmful interference, and (2) the device must accept any interference received, including interference that may cause undesired operation. for use in Canada only emka TECHNOLOGIES SA, 59, boulevard Gnral Martial Valin, 75015, Paris, France, dclare que lappareil TLE-E03-US respecte la rglementation CNR-210 de lIndustrie du Canada. L'utilisation de ce dispositif est autorise seulement aux deux conditions suivantes : (1) il ne doit pas produire de brouillage, et (2) l'utilisateur du dispositif doit tre prt accepter tout brouillage radiolectrique reu, mme si ce brouillage est susceptible de compromettre le fonctionnement du dispositif. Attention: Tous changements ou modifications sur lemkaPACK qui ne sont pas expressment approuv par emka TECHNOLOGIES pourrait annuler votre autorit utiliser cet appareil. emka TECHNOLOGIES SA, 59, boulevard Gnral Martial Valin, 75015, Paris, France, declares that the device TLE-E03-US complies with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) the device may not cause harmful interference, and (2) the device must accept any interference received, including interference that may cause undesired operation. Caution: Any changes or modifications in the emkaPACK that are not expressly approved by emka TECHNOLOGIES could void your authority to operate this equipment. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 4 the telemetry system important notices disclaimer verification warranty The hardware is exclusively designed for scientific research on the physiology of laboratory animals. When this equipment is used, research animals should remain confined to their usual laboratory cages. All the hardware and software materials described in this user manual are not intended to be used, and should not be used in human experimentation or applied to humans in any way. emka TECHNOLOGIES hardware and software are extensively tested and calibrated before factory or warehouse. Researchers should independently verify the basic accuracy of materials delivered. leaving our All material delivered by emka TECHNOLOGIES has a warranty against defects in material and workmanship for a period of one year from the date of shipment (as evidenced by receipts or other documentation). emka TECHNOLOGIES will, at its option, repair or replace equipment that proves to be defective during the warranty period. This warranty covers parts and labor. The warranty becomes invalid if the material is not used in accordance with this user manual. emka TECHNOLOGIES believes that the information provided in this document is accurate. Our document has been reviewed for technical accuracy. In the event that technical or typographical errors exist, emka TECHNOLOGIES reserves the right to make changes to subsequent editions of this document without prior notice to holders of this edition. The reader should contact emka TECHNOLOGIES if errors are suspected. safety warning copyright If material is not used in accordance with this user manual, electrical protection provided by the hardware material may be impaired. This manual contains all information about which precautions to take to avoid injury due to electrical shock. Please read this manual before using the emkaPACK non-invasive telemetry transmitter. Under the copyright laws, this publication may not be reproduced or transmitted in any form, electronic or mechanical, including photocopying, recording, storing in an information retrieval system, or translating, in whole or in part, without the prior written consent of emka TECHNOLOGIES SA. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 5 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 table of contents chapter 1 the telemetry system ........................................................................10 chapter 2 emkaPACK transmitter ...................................................................12 2.1 description ........................................................................................................................................12 2.2 acquired parameters........................................................................................................................14 chapter 3 setting up the emkaPACK transmitter.............................................16 3.1 what is supplied ................................................................................................................................16 3.2 setting up the emkaPACK transmitter.............................................................................................16 chapter 4 running sessions ..............................................................................18 chapter 5 maintenance ................................................................................... 22 chapter 6 extending functionality..................................................................... 23 chapter 7 frequently asked questions ............................................................. 24 7.1 emkaPACK transmitter..................................................................................................................... 24 7.2 ecg .................................................................................................................................................. 24 7.3 activity ............................................................................................................................................. 25 chapter 8 troubleshooting ............................................................................... 26 chapter 9 recommendations ........................................................................... 28 chapter 10 technical specifications .................................................................. 29 chapter 11 good laboratory practice ................................................................ 30 11.1 validation ......................................................................................................................................... 30 11.2 maintenance................................................................................................................................... 30 chapter 12 technical support ............................................................................31 12.1 internet site......................................................................................................................................31 12.2 your emka TECHNOLOGIES contacts ...........................................................................................31 chapter 13 customer feedback........................................................................ 32 13.1 support form................................................................................................................................... 32 13.2 feedback on this user manual........................................................................................................ 33 13.3 general feedback form................................................................................................................... 34 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 6 the telemetry system table of figures figure 1 a standard telemetry system installed by emka TECHNOLOGIES ............................. 10 figure 2 emkaPACK number .................................................................................................. 12 figure 3 emkaPACK transmitter serial number (S/N).............................................................. 12 figure 4 ecg connector and primary connectors.................................................................... 13 figure 5 secondary connectors (markings) ............................................................................ 13 figure 6 emkaPACK transmitter and led................................................................................. 14 figure 7 clips and banana connectors for ecg measurements ............................................... 16 figure 8 standard placement of electrodes ............................................................................ 19 figure 9 electrode placement in alternative ecg configuration ............................................... 19 figure 10 current flows in the alternative ecg configuration .................................................... 19 figure 11 placing bandaging around electrodes and wires......................................................20 figure 12 emkaPACK transmitter in place ...............................................................................20 figure 13 example placement of electrodes for 1 lead ecg (lead II) ........................................ 21 table of tables table 1 standards for color coding for ecg electrodes............................................................ 14 table 2 calibration values for ecg signal ................................................................................. 16 table 3 calibration values for activity signal ........................................................................... 17 table 4 technical specifications ..............................................................................................29 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 7 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 about this manual conventions This document tells you how to use the emkaPACK for the acquisition of ecg and activity data. For customers new to telemetry, chapter 1 is a brief overview of the telemetry system from emka TECHNOLOGIES. chapter 2 describes your emkaPACK transmitter, while chapter 3 'setting up the emkaPACK transmitter' and chapter 4 'running sessions' provide practical guidance on using the emkaPACK transmitter. chapter 9 'recommendations'
contains important information concerning which the types of batteries to use with your emkaPACK transmitter. If you have any questions or encounter any problems, the solution is likely to be found in this manual, in particular chapter 7 'frequently asked questions' or chapter 8 'troubleshooting'. The different types of information given in the text are described below. note: note. Text in this format alerts you to a note, comment, or specific information. technical note: technical note. Text in this format alerts you to a note, comment, or specific information of a technical nature. important! important note. Text in this font alerts you to important information. caution! caution note. Text in this font warns you of precautions to take to avoid danger, injury, the loss of data, or a system crash. equipment symbols The different types of symbols on the device are described below. Attention, consult accompanying documents. Battery related documentation The following documents may also be of interest to you. emkaPACK non-invasive telemetry system application note - for an overview of telemetry ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 8 emkaPACK telemetry receiver user manual iox2 user manual - iox2 is emka TECHNOLOGIES software solution for acquiring, analyzing and storing data ecgAUTO user manual - ecgAUTO is emka TECHNOLOGIES ecg analysis software the telemetry system ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 9 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 1 the telemetry system The telemetry system from emka TECHNOLOGIES is intended for use in preclinical research, primarily toxicology and safety pharmacology studies. It is a non-invasive, or external, system that acquires biological data from large subjects such as dogs and non-human primates then transmits these data wirelessly to a data acquisition station. The different components of the telemetry system are shown in figure 1. This is a standard set-up consisting of one antenna per cage and a small number of subjects (to aid understanding, only key components and connections are shown). figure 1 a standard telemetry system installed by emka TECHNOLOGIES The different components of a standard telemetry system are as follows:
emkaPACK transmitter The emkaPACK transmitter is a compact and durable unit that fits neatly into a jacket pocket on the back of the subject. Each emkaPACK transmitter collects, conditions, converts (to digital), and transmits physiological signals on a specific frequency channel. antenna receives the transmitted signals, and is connected to the receiver module, directly or via an antenna network. receiver mainframe houses and powers the receiver modules emkaPACK receiver module Each is tuned to a specific frequency channel, and forms a pair with a specific emkaPACK transmitter. The modules slot inside the receiver mainframe. versatile antenna adapter (VAA) (not shown on figure) One or more VAAs combine to form an antenna network. Their role is to combine and/or split the radio signal going from one or more antennas to one or more ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 10 the telemetry system receiver modules. This allows greater flexibility when planning experiments (for example, with a VAA, a particular emkaPACK can be used in different pens in different recording sessions). workstation every setup contains at least one workstation equipped with a data acquisition card and software for acquiring, analyzing and storing data. In figure above, iox2 is used for acquisition, analysis and storage. For ecg data, advanced analysis can be carried out with ecgAUTO software. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 11 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 2 emkaPACK transmitter transmitter performs collection, conditioning The emkaPACK amplification), analog-to-digital conversion, and transmission of ecg and activity. It runs on two AA/R6 alkaline batteries providing continuous acquisition of 7-lead ecg and activity data for an average of 80 hours. With regard to battery choice:
it is strongly recommended to avoid high-power batteries (see chapter 9). it is preferable to use single-use (disposable) rather than rechargeable batteries (see FAQ "can I use rechargeable batteries?" in chapter 7).
(including The emkaPACK transmitter does not have a power switch. It is automatically switched on and off when the ecg cable is connected and disconnected. 2.1 description 2.1.1 emkaPACK number The corresponding receiver module has the same number (figure 2). figure 2 emkaPACK number 2.1.2 serial number (S/N) A unique serial number (S/N) is found on the back of each emkaPACK (figure 3). figure 3 emkaPACK transmitter serial number (S/N) ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 12 2.1.3 ecg connector emkaPACK transmitter The ecg cable is connected to the ecgLEADS connector (figure 4). 2.1.4 primary connectors These connectors are used to connect to modules for the acquisition of physiological signals other than ecg and activity. figure 4 ecg connector and primary connectors 2.1.5 secondary connectors These connectors connect to modules for the acquisition of physiological signals other than ecg and activity (figure 5). These connectors are not fitted on the emkaPACK as standard, because they are only for use with modules by emka TECHNOLOGIES. Nevertheless, markings are provided on the emkaPACK for customers who purchase the modules (figure 5).
(In this case, the connectors may be fitted by customers themselves or by emka TECHNOLOGIES.) figure 5 secondary connectors (markings) ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 13 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 2.1.6 led The led (figure 6) indicates the progress of the boot-up procedure. figure 6 emkaPACK transmitter and led 2.2 acquired parameters 2.2.1 ecg The emkaPACK is used to obtain ecg data from large animals, such as dogs, primates and pigs. Three configurations are possible 1-lead ecg, using a 3-wire ecg cable 6-lead ecg, using a 4-wire ecg cable, for obtaining the standard leads, namely three Einthoven bipolar leads (I, II, III) and three Goldberger unipolar leads (aVR, aVL, aVF) 7-lead ecg, using a 5-wire ecg cable - 6-lead ecg as above plus one unipolar chest lead (Wilson lead) location right arm (RA) left arm (LA) right leg (RL) left leg (LL) chest lead The colors used for the different wires are those defined by standards (Table 1). IEC (Europe) AAMI (US, Japan) red yellow black green white black green red variable
(gray for emka TECHNOLOGIES) variable
(gray for emka TECHNOLOGIES) table 1 standards for color coding for ecg electrodes When placing an order for an emkaPACK, customers must specify which ecg configuration they intend to use because the internal software of the emkaPACK must be configured. In addition, the appropriate ecg cable is supplied. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 14 2.2.2 activity emkaPACK transmitter The 3-axis accelerometer inside the emkaPACK transmitter measures movement in each axis every 2 ms. The emkaPACK calculates an activity signal (Act) for intervals of 192 ms as follows. Act
2 2 x
y
z 2 with x = xn - x n y = yn - yn z = zn - zzn where xn is the x-axis value for acquisitions n n+95 where yn is the y-axis value for acquisition n n+95 where zn is the z-axis value for acquisition n n+95 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 15 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 3 setting up the emkaPACK transmitter 3.1 what is supplied ecg cable containing 3, 4 or 5 wires, as requested by the customer. Electrodes provided with 4-and 5-wire cables are color coded in accordance with IEC standards (on request, emka TECHNOLOGIES will supply cable color coded according to AAMI standards). electrode connectors (Comepa) - both banana and clip connectors are supplied (figure 7). The clip connector is inserted around the banana connector. Therefore, simply remove the clip connector if you want to use the banana connectors. figure 7 clips and banana connectors for ecg measurements 3.2 setting up the emkaPACK transmitter The setup involves calibration only. 3.2.1 calibration of ecg signal The ecg measurement chain is factory calibrated and temperature compensated. You simply enter the two pairs of calibration values directly into your data acquisition software:
Physical value (mV) Output signal amplitude (V) low
-5
-5 high 5 5 table 2 calibration values for ecg signal If you are using iox2, this 'manual calibration' is done in 'two-points calibration
(manual)'. To perform calibration, you can also use a device that simulates ecg output. You may use the ecg calibrator from emka TECHNOLOGIES for this purpose (sold separately). ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 16 3.2.2 calibration of activity signal setting up the emkaPACK transmitter The integrated activity measurement system is factory calibrated and temperature compensated. You simply enter the two pairs of calibration values (voltage and physical quantity) directly into your data acquisition software:
Physical value (m.s-2) Output signal amplitude (V) low 0
-5 high 1
-1.45 table 3 calibration values for activity signal If you are using iox2, this 'manual calibration' is done in 'two-points calibration
(manual)'. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 17 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 4 running sessions This chapter describes how to run a session for the acquisition of 7-lead ecg and activity in dogs. It is assumed that the telemetry setup also includes iox2 (a software application for acquiring, analyzing and storing data) and you are using clothing from Lomir
(custom-designed for the emkaPACK). 4.1.1 requirements clippers ecg cable (supplied) banana and clip connectors (supplied) adhesive electrodes (available from emka TECHNOLOGIES separately) gauze sponge alcohol for disinfecting the skin white tape undershirt jacket self-adherent bandaging (optional), such as VetrapTM (3M, Bracknell, Berks, United Kingdom) 4.1.2 running a session 1. Insert new batteries. subject preparation - place the electrodes There are two possible ecg configurations. standard configuration 1. Shave the skin on the underside of the subject in five different areas as follows:
two circles of 5 cm diameter below the left front leg and the right front leg
(LA and RA electrodes) two circles of 5 cm diameter mid-way between the front and rear legs, on the left side and the right side (LL and RL electrodes) one circle of 5 cm diameter 7 cm below the front left electrode (V electrode), i.e. under the heart 2. Wipe each area with gauze sponge and alcohol and allow to air dry. 3. Connect the electrodes to the wires of the ecg cable. 4. Place the adhesive electrodes on the bare skin, at the correct site (figure 8). Press around the edge of the electrode but not in the centre. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 18 running sessions figure 8 standard placement of electrodes alternative configuration Experience has shown that this configuration can also provide high-quality ecg signals, notably in beagles. The placement of electrodes for 6-lead ecg (shown in figure 9, AAMI colours) is adapted to the position of the heart (more central within the chest cavity), with the current flows crossing in the subjects chest (figure 10). All the electrodes should be aligned along an imaginary circle drawn around the subject's chest and be located away from its normal range of movement. figure 9 electrode placement in alternative ecg configuration figure 10 current flows in the alternative ecg configuration ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 19 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 subject preparation - dress the subject 5. Secure the wires in position with the undershirt. As an alternative or if the undershirt is not sufficient, use white tape and bandaging (figure 11). The bandaging must not be too tight as this will impair the animal's breathing. figure 11 placing bandaging around electrodes and wires 6. Place the jacket around the subject. 7. Place the emkaPACK transmitter in the jacket pocket. 8. Ensure that there are no loose wires hanging out, as these are liable to be chewed or to catch on objects. The subject is ready (figure 12). figure 12 emkaPACK transmitter in place The procedure is the same for other ecg configurations (such as 6-lead ecg) with steps 1 to 4 modified accordingly. figure 13 shows electrode placement for obtaining 1-lead ecg (for lead II ). important! all the wires of the ecg cable must be connected to the subject, even if you are not using them (for example, if you wish to acquire 1-lead ecg with a 5-wire cable). Otherwise, the signal will be inaccurate. ecg cable can be ordered from emka TECHNOLOGIES. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 20 running sessions power up recording session figure 13 example placement of electrodes for 1 lead ecg (lead II) note: the emkaPACK transmitter can be used to obtain ecg data from other large animals, such as primates and pigs. Plug the ecg cable into the ecgLEADS connector to turn on the emkaPACK transmitter. It then performs a boot procedure. During this procedure, which only takes a few seconds, the led goes from off to solid green (i.e. not flashing). After successful boot-up, the led simply goes off. If the LED does not go on or goes solid red, there is a potential problem with the emkaPACK transmitter. If this happens, switch off the emkaPACK transmitter (by disconnecting the ecg cable), check the connections and batteries, then switch it on again. If the problem persists, please contact emka TECHNOLOGIES (see
'Technical support' chapter). No particular action is required during recording sessions. If the battery charge falls below a certain level, the 'low battery' led lights up on the corresponding receiver module. 4.1.3 after sessions At the end of the experiment, disconnect the ecg cable from the emkaPACK transmitter to switch off the power. The emkaPACK transmitter should be stored in a cool dry place. Keep it away from sunlight and other sources of heat. Keep it away from sources of magnetism. If you will not be using the emkaPACK transmitter for some time, remove the batteries. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 21 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 5 maintenance For accurate data, the calibration of the telemetry system must be verified on a regular basis. At installation, emka TECHNOLOGIES provides a calibration certificate valid for one year. Certificate renewal (verification or recalibration) is performed as part of maintenance contracts. Calibration should be performed as often as necessary. In practice, the frequency of calibration is imposed by internal regulations or is indicated in certain situations, e.g. exposure to highly variable temperature, humidity, shock etc. Check the cables and connectors regularly. If you will not be using the emkaPACK transmitter for some time, remove the batteries. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 22 chapter 6 extending functionality extending functionality emka TECHNOLOGIES sells a range of modules for the acquisition of different types of signals. blood pressure, non-invasively (nibp module) or in combination with a vascular skin temperature access port (t-PRESS module) lung volume (emkaBELT module) Please contact emka TECHNOLOGIES for more information about using your emkaPACK with the above modules. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 23 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 7 frequently asked questions 7.1 emkaPACK transmitter can I use the emkaPACK transmitter for eeg measurements?
Each type of bioelectric potential has a characteristic amplitude, frequency, signal-
noise ratio, etc and requires specially designed components. Currently, emkaPACK telemetry system is designed to measure ecg only. However please let us know if for measuring other you are biopotentials. Our aim is to satisfy our customers' requirements. in using emkaPACK transmitter interested can I use rechargeable batteries?
Yes, but it is recommended to use single-use batteries to reduce the risk and the duration of recording gaps during experimental sessions. This is because:
single-use batteries generally provide current for longer than fully-charged rechargeable batteries. single-use batteries generally have a more gradual discharge curve. This means that they will reach full discharge 3-4 hours after the 'low-battery'
warning appears (versus 10-15 minutes with most rechargeable batteries). Please check the website www.emka.fr (in English) to see the latest options. If you cannot find the product you need for your experiments, please contact us. is there a help-line?
The answers to most technical issues are contained within this user manual, in particular, the 'troubleshooting' and 'frequently asked questions' chapters. If you cannot find a solution in this manual, you may:
check the website at www.emka.fr (in English) o products >> software o applications >> telemetry o services >> technical support o services >> FAQs contact emka TECHNOLOGIES (see 'technical support' chapter) fax back the Support Form in the 'customer feedback' chapter 7.2 ecg how often do I have to calibrate the ecg module?
Generally, we recommend that users perform calibration with a device that simulates ecg signals (e.g. ecg calibrator from emka TECHNOLOGIES) at least once a month. More frequent calibration may be imposed by internal regulations or indicated in certain situations, e.g. if the emkaPACK transmitter is subject to highly variable environmental conditions (temperature, humidity, shock etc). ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 24 what type of ecg data can I acquire using the emkaPACK transmitter?
As part of a telemetry set-up, emkaPACK transmitter may be used for acquiring frequently asked questions 1-lead ecg 6-lead ecg (3 Einthoven bipolar, 3 Goldberger unipolar) 7 lead ecg (3 Einthoven bipolar, 3 Goldberger unipolar, 1 unipolar chest lead) is it possible to change ecg configuration, e.g. from 6-lead ecg to 7-lead ecg ?
Yes, it is possible to change ecg configuration. However, the system must be adapted by using appropriate cable and reconfiguring emkaPACK transmitter internal software (this is done by emka TECHNOLOGIES). Correct cable and reconfiguration are particularly important if you decide to 'down-
grade' ecg configuration (e.g. 7-lead to 6-lead, or 6-lead to 1-lead). If the appropriate cable is not used, unused electrodes may cause interference. To ensure accurate signals, every wire of the ecg cable must be connected to the subject, regardless of whether its signal will be acquired. can I make eeg measurements using emkaPACK transmitter?
Currently this is not possible. However please let us know if you are interested in using emkaPACK transmitter for this purpose. Our aim is to satisfy our customers'
requirements. 7.3 activity how often do I have to calibrate the activity option?
The activity option is factory calibrated; the accelerometer is designed to provide the same voltage output for a given activity level over time. You only need to enter pairs of calibration values (voltage and physical quantity) directly into your data acquisition software. This 'manual calibration' therefore is not a full calibration because you type in the quantity rather than physically apply it. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 25 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 8 troubleshooting the LED does not go on when the ecg connector/power plug is connected Possible causes and solutions:
One or both batteries are the wrong way.
Place the batteries the right way. One or both batteries has run out.
Insert new batteries. emkaPACK transmitter is defective.
Contact technical support (See 'technical support' chapter) the LED is solid red Possible causes and solutions:
Initialization has failed.
Check all connections. emkaPACK transmitter is defective.
Contact Technical support (See 'technical support' chapter) there are no signals from one of the emkaPACK transmitters (the 'source on' led of the corresponding receiver module is off)
Ensure that the antenna networks (the VAAs) are powered up
Check that the corresponding emkaPACK transmitter is working.
- are the batteries the right way?
- have the batteries run out?
Insufficient transmission range Under normal conditions, the settings of each emkaPACK transmitter should ensure continuous coverage, wherever the subject is located there are no signals from any of the emkaPACK transmitters Possible causes and solutions:
There is no power supply in the receiver mainframe:
Check the power supply module in the receiver mainframe (the led should be green): Has the fuse blown? Is the power switched on?
there is no physiological signal
Check the connections.
Check that the electrodes connectors have not become disconnected. the ecg signal is noisy
Check that all wires are connected to the electrodes.
Check that the electrodes are properly stuck to the subject ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 26 chapter 9 recommendations recommendations emka TECHNOLOGIES strongly recommends the use of DURACELL PROCELL AA/LR6 2700 mAh alkaline batteries. After extensive testing, we found DURACELL PROCELL batteries to be reliable as well as powerful enough to run emkaPACK for 80 hours when transmitting information for 7-lead ecg and activity. These batteries are reasonably priced
(around EUR 0.35 or US$ 0.50 each). Other batteries exist, some of which have a higher energy capacity. For example, the ENERGIZER ULTIMATE LITHIUM battery has close to twice the energy of a DURACELL PROCELL. Although their cost is disproportionately higher, some customers may find them attractive because of their high energy content. However, we strongly recommend against the use of high-power batteries to run emkaPACK transmitters; this recommendation is based on the following facts:
emkaPACK is powered by two 1.5V batteries running in series, providing a total of 3V. emkaPACK is its key components a stable 3V power supply even when available battery voltage drops below the nominal 3V value (as occurs towards the end of battery life). fitted with an electronics module that provides emkaPACK does not have an equivalent feature that stabilizes voltage at 3V when batteries provide a total voltage above 3V. high-power batteries usually provide voltage well above 1.5V (typically up to 1.8V), and their voltage remains above 1.5V through most of their life span. running emkaPACK with voltage above its nominal 3V has undesirable effects on the amplitude of the transmitted signal. For example, going from a voltage of 3V to 3.6V causes a decrease of around 15% in the output amplitude of ecg or activity. To avoid difficulties and inconsistencies between calibration and measurements, all customers are advised to use alkaline DURACELL PROCELL or equivalent batteries. These recommendations should not present a problem for the majority of our customers. However, if you believe that the recommended batteries will not have sufficient power, please contact emka TECHNOLOGIES SA (France) for advice on how to proceed and/or to find a solution. Future versions of emkaPACK transmitters will be designed to accept high-power batteries without any undesirable effects on signal amplitude. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 27 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 10 technical specifications parameter description value unit notes min typ max supply voltage supply current 1.1 8 3 13 transmission distance 0.75 Vcc Icc Trd Lbt Fa Tst Top HRs HRo low battery indication functional autonomy storage temperature operating temperature storage humidity operating humidity Dimensions length:
width:
depth:
Weight weight (with batteries) Battery 2 x AA/LR6 type battery ecg signal Lo Freq low cut-off frequency Hi Freq high cut-off frequency Max offset maximum input offset Aimax max. input amplitude Fs Zi G Res sampling frequency Input impedance of ecg amplifier signal amplification amplitude resolution activity signal Fs AMax sampling frequency Maxim acceleration amplitude per axis (x, y or z) 3.3 30 10 1.9 80 60 50 80 70 1.7 48
-10 10 20 30 1.8 72 20 35 40 50 117 78 27 180 1.5 0.7 250
-75
-4 0 1
+75
+4 500 3.109 1 7.8 5.1
- 1.5 1.5 m.s-2 V mA m V DC Depends on factory settings. See calibration certificate Depends on factory settings and environment See calibration certificate Hours Depends on transmission power and battery type C C
%RH
%RH mm mm mm g V Hz Hz mV mV Hz Duracell PROCELL 2700 mAh or equivalent alkaline model recommended
-3 dB
-3 dB F < 0.7 Hz 0.7 < F < 250 Hz V/mV see calibration certificate V Hz table 4 technical specifications ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 28 chapter 11 good laboratory practice good laboratory practice 11.1 validation As part of its commitment to customer service, emka TECHNOLOGIES provides assistance to customers to allow them to conduct studies according to good laboratory practice. Assistance covers validation and maintenance. Telemetry systems from emka TECHNOLOGIES are developed according to high quality assurance standards and have built-in features which allow them to be successfully validated. emka TECHNOLOGIES performs a validation of the system's accuracy, stability, and reliability at installation, i.e. for your specific system configuration under your specific operating procedures and your specific operating environment. As the system provider, we know how the system operates; thus, we can provide efficient validation assistance through our validation support service packages:
support to customer and/or third-party package sample plan and test script models package tailored models package full validation process package We provide assistance for the entire validation process. 11.2 maintenance Our maintenance contracts provide you with assistance for any problems encountered, and yearly controls. ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 29 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 chapter 12 technical support The answers to most technical issues are contained within this user manual. In particular, the troubleshooting and frequently asked questions chapters contain answers to the most commonly occurring issues. If you cannot find a solution in this manual, please:
check the website contact emka TECHNOLOGIES fax back the support form in the customer feedback chapter 12.1 internet site The website of emka TECHNOLOGIES at www.emka.fr contains a lot of information, including technical support and services. We invite you to visit the following sections:
products >> hardware >> non-invasive telemetry applications >> telemetry services >> technical support services >> faq 12.2 your emka TECHNOLOGIES contacts If you searched www.emka.fr and could not find the answers you need, contact your local office or emka TECHNOLOGIES corporate headquarters. emka TECHNOLOGIES corporate headquarters emka TECHNOLOGIES SA 59, bd. Gnral Martial Valin 75015 Paris - France phone: + 33 (0)1 40 60 76 00 sales and support office for North America emka TECHNOLOGIES INC. 115 Hillwood Ave., Suite 203 Falls Church, VA 22046 - USA phone: +1 (703) 237-9001 fax: +33 (0)1 40 60 65 55 fax: +1 (703) 237-9006 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 30 chapter 13 customer feedback 13.1 support form customer feedback Photocopy this page and fill it out each time you encounter problems. Completing this form accurately helps us to answer your question more effectively. personal information:
name:
_______________________________________________________________________________ title/function:
_______________________________________________________________________________ company:
_______________________________________________________________________________ address:
_______________________________________________________________________________ fax/phone (please indicate which):
_______________________________________________________________________________ Describe the problem below. _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ Please return the form by post or fax emka TECHNOLOGIES (corporate headquarters) 59, bd. Gnral Martial Valin 75015 Paris - France / Fax: +33 (0)1 40 60 65 55 emka TECHNOLOGIES INC (sales and support office for North America) 115 Hillwood Ave., Suite 203 Falls Church, VA 22046 - USA Fax: +1 (703) 237-9006 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 31 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 13.2 feedback on this user manual emka TECHNOLOGIES strongly encourages feedback on its products and services. Please let us know what you think about this user manual by returning the form below. This information will enable us to continue to improve our documentation. My feedback concerns:
emkaPACK transmitter user manual version 1.4 rev.1 August 2008 personal information:
name:
_______________________________________________________________________________ title/function:
_______________________________________________________________________________ address:
_______________________________________________________________________________ fax/phone (please indicate which):
_______________________________________________________________________________ Please tell us whether you think that this manual is (circle the correct answer) company:
exhaustive well organized useful Yes / No clear, easy to understand Yes / No Yes / No Yes / No If you have specific comments or suggestions for improving the manual, please mention them here:
_______________________________________________________________________________ _______________________________________________________________________________ If there are any errors in the user manual, please describe them here (with page number/ section) _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ Thank you for your time. Your feedback is valuable to us. Please return the form by post or fax emka TECHNOLOGIES (corporate headquarters) 59, bd. Gnral Martial Valin 75015 Paris - France / Fax: +33 (0)1 40 60 65 55 emka TECHNOLOGIES INC (sales and support office for North America) 115 Hillwood Ave., Suite 203 Falls Church, VA 22046 USA Fax: +1 (703) 237-9006 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 32 13.3 general feedback form customer feedback emka TECHNOLOGIES strongly encourages feedback on its products and services. This form may be used to provide feedback on any of our products and services. This information will enable us to continue to provide quality products to meet your needs. product or service concerned:
_______________________________________________________________________________ personal information:
name:
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_______________________________________________________________________________ provide your feedback below _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ _______________________________________________________________________________ Thank you for your time. Your feedback is valuable to us. Please return the form by post or fax emka TECHNOLOGIES (corporate headquarters) 59, bd. Gnral Martial Valin 75015 Paris - France / Fax: +33 (0)1 40 60 65 55 emka TECHNOLOGIES INC (sales and support office for North America) 115 Hillwood Ave., Suite 203 Falls Church, VA 22046 - USA / Fax: +1 (703) 237-9006 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 33 emkaPACK non-invasive telemetry transmitter user manual version 1.4 rev.1 End of user manual. Thank you for purchasing the emkaPACK transmitter as part of your telemetry setup. Our goal is to develop products and services that meet the needs of the research community. As such we are attentive to all our customers and your feedback is appreciated. emka TECHNOLOGIES fax: +33 (0)1 40 60 65 55 emka TECHNOLOGIES SA 59, bd. Gnral Martial Valin 75015 Paris - France phone: + 33 (0)1 40 60 76 00 emka TECHNOLOGIES INC. 115 Hillwood Ave., Suite 203 Falls Church, VA 22046 - USA phone: +1 (703) 237-9001 www.emka.fr / www.emkatech.com 2008 emka TECHNOLOGIES SA. All contents Copyright. All rights reserved. Because emka TECHNOLOGIES has a policy of continuous product improvement, we reserve the right to change design and specifications without notice. fax: +1 (703) 237-9006 ______________________________________________________________________________________________________________________________ emka TECHNOLOGIES page 34
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2008-08-08 | 903 ~ 927 | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2008-08-08
|
||||
1 | Applicant's complete, legal business name |
EMKA TECHNOLOGIES
|
||||
1 | FCC Registration Number (FRN) |
0017654211
|
||||
1 | Physical Address |
59, Bd du general Martial Valin
|
||||
1 |
Paris, 75015
|
|||||
1 |
France
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@curtis-straus.com
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
V9V
|
||||
1 | Equipment Product Code |
TLEE03US
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
J**** N******
|
||||
1 | Title |
CEO
|
||||
1 | Telephone Number |
33140********
|
||||
1 | Fax Number |
33140********
|
||||
1 |
j******@emka.fr
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Telemetry Transmitter | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
LCIE
|
||||
1 | Name |
P****** P******
|
||||
1 | Telephone Number |
00-33********
|
||||
1 | Fax Number |
00-33********
|
||||
1 |
p******@lcie.fr
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 903.00000000 | 927.00000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC