Page 1 User Manual Veterinary Monitor Model: PM-900 Shenzhen Biocare Bio-Medical Equipment Co., Ltd. P/N: 02111720-01...
Page 3 For reasons of technical updating and customers‘ special requirements, if the product performance is unaffected, some assembled units may not be in accordance with the standard configurations indicated in the manual. Version: V2.1 Date: 2018-12 All rights reserved © Shenzhen Biocare Bio-Medical Equipment Co., Ltd.
Page 4 Shanghai International Holding Corp. GmbH(Europe) Eiffestraß e 80 20537 Hamburg GERMANY Shenzhen Biocare Bio-Medical Equipment Co., Ltd. #16-1, Jinhui Road, Jinsha Community, Kengzi Sub-District, Pingshan New District, 518122 Shenzhen, PEOPLE'S REPUBLIC OF CHINA Tel: 86 -755 -33005899 Fax: 86-755-27960643 Website: http://www.biocare.com.cn...
Page 5: Table Of Contents
Content Content Preface ..................................1 Customer Required Reading ..........................3 Chapter 1 Operation Safety Information ......................5 1.1 Safety Information ............................5 1.2 Influence on the Environment and Energy Sources ..................7 1.3 Safety Classification............................7 1.4 Safety Requirements ............................8 1.5 Device Identifications ...........................
Page 6 Content 3.6 Interface Setup .............................. 25 3.7 Main Menu ..............................26 3.8 General Setup ..............................26 3.8.1 Monitor Definition ..........................26 3.8.2 Screen Type Setup ..........................26 3.8.3 Screen Brightness ..........................27 3.8.4 Time and Date Setup ..........................27 3.8.5 Audio Setup ............................27 3.8.6 Help Menu .............................
Page 7 Content 6.1.5 Monitoring Procedures .......................... 43 6.1.6 ECG Display ............................45 6.1.7 ECG Setup ............................. 46 6.1.8 ST Analysis ............................47 6.1.9 Arrhythmia Monitoring ......................... 49 6.1.10 Arrhythmia Alarm ..........................50 6.1.11 ECG Relearn ............................55 6.2 Resp ................................55 6.2.1 Resp General Description ........................
Page 8 Content 6.6.5 Temp Unit Setup ............................ 75 6.6.6 Alarm Setup ............................75 6.7 IBP (Optional) ............................... 75 6.7.1 General Description ..........................75 6.7.2 Safety Information ..........................75 6.7.3 Monitoring Steps ........................... 76 6.7.4 IBP Display ............................77 6.7.5 IBP Setup ............................... 77 6.7.6 Sensor Zero-Calibration ........................
Page 9 Content 8.3 Record Frozen Waveforms ........................... 97 8.4 Review ................................98 8.4.1 Review Window ............................ 98 8.4.2 Graphic Trends ............................98 8.4.3 Tabular Trends ............................. 100 8.4.4 Events ..............................101 8.4.5 NIBP List ............................. 103 8.4.6 Long ECG ............................104 Chapter 9 Calculations ............................
Page 10 Content 13.4 Storage of Monitor ............................ 122 13.5 Transport ..............................122 13.6 Inspection of Monitor ..........................122 Chapter 14 Maintenance ............................. 123 14.1 Safety Information ............................ 123 14.2 NIBP Accuracy Test ..........................123 14.3 NIBP Overpressure Test ........................... 123 14.4 NIBP Leakage Test ........................... 123 14.5 User Maintain ............................
Page 11 Content B.6.2 Respiration (Resp) Monitoring ......................140 B.6.3 SpO Monitoring ..........................141 B.6.4 PR Specifications ..........................141 B.6.5 NIBP Monitoring ..........................142 B.6.6 Temperature (Temp) Monitoring ......................144 B.6.7 IBP Monitoring ........................... 144 B.6.8 CO Monitoring (Optional) ......................... 145 B.6.9 Recorder Specifications (Optional) ..................... 148 Appendix C Alarm Information .........................
Page 12 Content -- The Blank Page -- --VIII-- User Manual of Veterinary Monitor...
Page 13: Preface
Preface Preface Thank you for using the veterinary monitor produced by our company. In order to help you master the operation on this series of monitors as soon as possible, an user manual (the current manual) has been attached to this series of products. It is strongly recommended you read it before you install and use the product for the first time.
Page 14 Preface -- The Blank Page -- --2-- User Manual of Veterinary Monitor...
Page 15: Customer Required Reading
Customer Required Reading Customer Required Reading This section will tell you what operative procedures should be paid close attention to, how to avoid abnormal operation, and what possible detrimental risks might occur to this series of monitors or animal when you use this series of monitors.
Page 16 Customer Required Reading index tests prove this series of monitors is still operational, it can go on to being used. When blood pressure is measured, the manual mode is recommended by the manufacturer. If the automated or continuous model is selected, a qualified observer should be present. For animals with pacemakers, heart rate meter may be in asystole or arrhythmia the pacemaker pulse count.
Page 17: Chapter 1 Operation Safety Information
Chapter 1 Operation Safety Information Chapter 1 Operation Safety Information 1.1 Safety Information Warning: emergencies may be caused which may lead to death, severe bodily injuries or property loss if you do not follow this advice. Explanation: instructions or explanations are provided for better use of this series of product. Attention: important information and prompts are included, which may lead to slight bodily injuries or breakdowns of the product if you do not follow them.
Page 18 Chapter 1 Operation Safety Information users to determine that if it meets the requirement and can be used after connection.  The signal input/output ports (when needed to use) are only permitted to be connected with devices which compliance with the standard of IEC 60601-1 when used within the animal environment, and compliance with the standard of other IEC or ISO standard when used outside the animal environment, the composition of the system should comply with the requirements of IEC 60601-1-1.
Page 19: Influence On The Environment And Energy Sources
Chapter 1 Operation Safety Information Attention  Please install the device at a place where the observation, manipulation and maintenance of the device is convenient.  Please put the user manual near the device for convenient and quick reference when necessary. ...
Page 20: Safety Requirements
Chapter 1 Operation Safety Information 1.4 Safety Requirements  Animal Number This series of monitors can only monitor one animal at a time.  Interference Do not use a mobile telephone near this series of monitors as the high-intensity electromagnetic interference emitted from it may strongly influence the normal operation of this series of monitors.
Page 21 Chapter 1 Operation Safety Information  Service Life The service life for this series of monitors is five years. After the service life, this series of monitors and its accessories should be disposed of according to the associated laws and regulations. If you have any question about their handling, please contact the manufacturer or the agency.
Page 22: Device Identifications
Chapter 1 Operation Safety Information 1.5 Device Identifications  Safety Associated Identification Type CF applied part, defibrillation-proof protection against electric shock, represents that type CF applied parts have a higher protection against electric shock (especially on permissive leakage current) compared to type BF applied parts. Type BF applied part, defibrillation-proof protection against electric shock, represents that type BF applied parts have a higher protection against electric shock (especially on permissive leakage current) compared to type B applied parts.
Page 23: Chapter 2 Overview
Chapter 2 Overview Chapter 2 Overview 2.1 Brief Introduction 2.1.1 Applicability This series of monitors can be used in monitoring or measuring the electrocardiogram (ECG), non-invasive blood pressure (NIBP), body temperature (Temp), respiration (Resp), EtCO (optional) and invasive blood pressure (IBP) (optional) for a single animal.
Page 24: Faceplate
Chapter 2 Overview mean blood pressures), invasive blood pressure (Art, PA, LAP, RAP, ICP, CVP and P1/P2, optional) and end expiration CO (EtCO )/airway respiratory rate (awRR) (optional). 2.3 Faceplate 2.3.1 Front View Figure 2.1 Front View of Monitor Handle Hidden Handle Physiological Alarm Indicator Lamp ...
Page 25 Chapter 2 Overview Display Screen Power Switch  Turn on: press this button to start the monitor after A.C. power connection.  Shut down: press this button to shut down the working monitor (the shut-down time lag depends upon the manufacturer‘s preset). Battery Power Indicator Lamp ...
Page 26: Side View
Chapter 2 Overview 2.3.2 Side View Figure 2.2 Left Side View of Monitor Figure 2.3 Right Side View of Monitor For the convenience of operation, different interfaces are placed on different sections of the monitor. The recorder (optional) is installed internally on the left side of the monitor, as shown in Figure 2.2 The cable and probe insertion points are placed on the right side of the monitor, as shown in Figure 2.3 1.
Page 27: Back View
Chapter 2 Overview 2.3.3 Back View Figure 2.4 Back View of Monitor The back faceplate contains the following insertions (as shown in Figure 2.4): Ventilator For online software upgrading, and export data through USB —USB interface connection. —VGA interface For connection to an add-in display. A standard RJ45 interface through which the monitor and a central —Network interface monitoring system can be connected using a standard cable.
Page 28: Modules
Chapter 2 Overview 2.4 Modules This series of monitors support the following modules: Standard parameter modules: ECG, Resp, SpO , Temp and NIBP. IBP modules (optional): the monitor supports two-channel IBP measurement. modules (optional): the monitor supports the products of Respironics and Kingst. Measurement methods include primary flow (outlayed) and by flow (inlayed or outlayed).
Page 29 Chapter 2 Overview be shown ; if [No] is selected, the information will not show; [No] is defaulted by this series of monitors.  Alarm State Graphical Presentation Region Alarm pausing, alarm silencing, alarm sound off, some parameter alarm off. ...
Page 30 Chapter 2 Overview Figure 2.8 Pulse oxygen Data Region : the pulse oxygen identification, e.g., ‗98‘ is the value of the pulse oxygen saturation at the time of  monitoring.  PR: the pulse rate identification, e.g., ‗60‘ is the value of the pulse rate at the time of monitoring. ...
Page 31 Chapter 2 Overview  Fi: CO intake.  Et: the end expiration CO concentration.  6.6/2.0: the upper and lower limits of an end expiration CO alarm.  5.0: the measure value of end expiration CO  Prompt Information Region The prompt information, network state icon, power supply state icon, and date and time are displayed in this region.
Page 32: Shortcut Key
Chapter 2 Overview 2.6 Shortcut Key The following shortcut keys are defaulted on the screen: Main Menu Admit Animal Alarm Setup Audio Setup The user can define the shortcut keys. Select [Main Menu] – [System] – [Screen Setup] – [Screen Config], as shown in Figure 2. 12: Figure 2.12 Screen Setup Select [Shortcut Key>>].
Page 33: Chapter 3 Basic Operation
Chapter 3 Basic Operation Chapter 3 Basic Operation 3.1 Installation Warning  When this series of monitors are connected with other electric equipment for specific functional combinations, if safety cannot be assured based on their separate specifications, please contact the manufacturer or specialized experts in the hospital to secure that the necessary safety of any equipment in the combination won’t be damaged.
Page 34: Normal Operation Conditions
Chapter 3 Basic Operation 3.1.3 Normal Operation Conditions Operating temperature: 0 ℃～40 ℃ (32 ℉～104 ℉). (If the machine includes CO module, the operating temperature is 5 ℃～40 ℃ (41 ℉～104 ℉)). Operating humidity: 15%～80%, non-refrigerated. 3. Atmospheric pressure: 442.5 mmHg～805.5 mmHg (59 kPa～107.4 kPa). Power source: AC 100 V～240 V, 50 Hz/60 Hz, frequency allowance ±...
Page 35: Turn On
Chapter 3 Basic Operation 3.2.2 Turn On After the power source is switched on, after system self-examination the monitor enters the original monitoring interface. Then, the user can perform operations.  Check all monitoring functions to be sure that they are normal. ...
Page 36: Input Board
Chapter 3 Basic Operation Attention  A forced shutdown when normal shutdown cannot work or equipment power fails under special conditions may lead to monitoring data loss. Therefore, a forced shutdown is not recommended in normal circumstances. 3.5 Input Board This series of monitors provide a input board for information input such as animal data.
Page 37: Interface Setup
Chapter 3 Basic Operation 3.6 Interface Setup By selecting the prompt information region on the screen, you can enter [Screen Setup] as shown in Figure 3.2: Figure 3.2 Screen Setup In the standard interface layout window, the user can allocate positions to different parameters and waveforms. Those parameters and waveforms without allocated positions won‘t be displayed on the standard interface.
Page 38: Main Menu
Chapter 3 Basic Operation  Whether the lead cable, cable, sensor or external add-in equipment has been well connected to the module.  Whether there is the prompt that the associated parameter has not been turned on in the prompt region at the bottom of the screen.
Page 39: Screen Brightness
Chapter 3 Basic Operation 3.8.3 Screen Brightness Select [Main Menu] – [System] – [Screen Setup], or press to enter the screen setup directly. Select [Screen Brightness]: 1 – 10. 3.8.4 Time and Date Setup Select [Main Menu] – [Maintenance] – [User Maintain>>] – [Time Setup] to set up the year, month, day, hour, minute and second.
Page 40: Configuration Management
Chapter 3 Basic Operation 3.9 Configuration Management 3.9.1 Recent Configuration Self-recovery The monitor carries out real-time configuration storage, which is the most recent configuration. When the device is off time does not exceed the user settings restore recently configuration time, after starting the apparatus automatically recover recently configuration.
Page 41: User Configuration Deletion
Chapter 3 Basic Operation to store the self-defined configuration. The stored configuration name in the system is presented as Name + Animal Type + Configuration. For example, if the self-defined configuration name is ICU, and the animal type is ―>20 kg‖, the stored configuration name is ICU >20 kg Configuration.
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Page 43: Chapter 4 Animal Management
Chapter 4 Animal Management Chapter 4 Animal Management 4.1 Admit Animal Select the buttons [Main Menu] – [Animal Manage] – [Admit Animal]. If the monitor has displayed an animal after the button [Admit Animal] is selected, press [Yes] to remove the current animal.
Page 44: Discharge Animal
Chapter 4 Animal Management 4.4 Discharge Animal Select [Main Menu] – [Animal Manage] – [Discharge Animal]. After [Discharge Animal] is selected, you can operate as follows in the selected menu:  Select [OK] rather than [Standby], and the monitor will carry out animal removal operation. After removal, it returns to the main screen.
Page 45: Chapter 5 User Interface
Chapter 5 User Interface Chapter 5 User Interface 5.1 Interface Style Setup The user can set up the interface style according to need, including waveform tracing methods, parameter color, monitor parameter setup, screen setup, interface layout, etc.  Waveform Tracing Methods Select [Main Menu] –...
Page 46: Standard Interface
Chapter 5 User Interface 5.2 Standard Interface Select the [Screen Setup] – [Screen Config] – [Interface Type] – [Standard]. Parameter-labeled waveforms are displayed on the left of the screen, and parameter data regions are displayed on the right, as shown in Figure 5.1: Figure 5.1 Standard Interface The user can select the needed parameter labels according to need in the [Std.
Page 47: Bignumerics Interface
Chapter 5 User Interface In each minitrends, the parameter label is shown at the top, the scale is shown on the left, and the timescale is shown at the bottom, as shown in Figure 5.3: Figure 5.3 Minitrends of Parameter 5.4 BigNumerics Interface Select the [Screen Setup] shortcut icon –...
Page 48: Oxycrg Interface
Chapter 5 User Interface 5.5 OxyCRG Interface Select the [Screen Setup] shortcut icon – [Screen Config] – [Interface Type] – [OxyCRG], which is shown in Figure 5.5: Figure 5.5 OxyCRG Interface In this interface, you may select the time range and RR Trend /Resp Wave gram of the respiratory oxygenation gram, as shown in Figure 5.6: Figure 5.6 OxyCRG Setup Trend time length: [1 min], [2 min], [4 min], or [8 min].
Page 49: View Other Bed Interface
Chapter 5 User Interface 5.6 View Other Bed Interface Select the [Screen Setup] icon – [Screen Config] – [Interface Type] – [View Other Bed], which is shown in Figure 5.7: Figure 5.7 View Other Bed Interface  Other Bed Set This series of monitors can select five monitors at most in the same network to form an ‗Other Bed Set‘.
Page 50 Chapter 5 User Interface  View Other Bed Window Figure 5.9 View Other Bed Window When the View Other Bed window is opened for the first time, the monitor will select other bed monitors automatically for observation. The window occupies the region below the waveform region, and is composed of: Information row: including the divisions, bed numbers, animals‘...
Page 51: Lead Half Screen
Chapter 5 User Interface  Other Bed Set Column Figure 5.10 Other Bed Set Column The column is located at the bottom of the [Other Bed Observation] window, displaying the divisions and bed numbers of the other bed monitors. Its state is indicated by different colors. ...
Page 52: Lead Full Screen
Chapter 5 User Interface 5.8 7 Lead Full Screen Select the [Screen Setup] icon – [Screen Config] – [Interface Type] – [7 Lead Full], as shown in 5.12: Figure 5.12 7 Lead Full Interface --40-- User Manual of Veterinary Monitor...
Page 53: Chapter 6 Parameter Monitoring
Chapter 6 Parameter Monitoring Chapter 6 Parameter Monitoring 6.1 ECG 6.1.1 ECG Measuring Principle Brief Description of ECG The heart has its own special electrical conduction system. It is situated within heart walls and consists of specially differentiated myocardial cells. The function is generating and conducting excitations, and maintaining and governing normal heart rhythms.
Page 54: Definition Of Ecg Monitoring
Chapter 6 Parameter Monitoring Testing Method This series of monitors measure ECG waveform and data by body surface potential mapping method. Body surface potential measure is recorded by placing several electrodes on chest and back, and simultaneously record ECG waveforms from each electrode site at each sampling moment. Since over 200 electrodes are used to measure the body surface potentials, this method can provide the cardio electric potentials of a great many sites on the body surface, which allows a full view of the cardio electric field on the entire body surface and the profile of the electrical cardiac activities for the whole cardiac cycle...
Page 55: Monitoring Procedures
Chapter 6 Parameter Monitoring  The monitor runs abnormally when either the monitor is overloaded or any of its amplifiers are saturated.  The electrode cannot be used in different metal materials. The electrode and electrode plate should be the same model. 6.1.5 Monitoring Procedures ...
Page 56 Chapter 6 Parameter Monitoring  Electrode Placement ECG measure is collecting electrocardio signals by connecting ECG cables with the monitor, and connected with the animal via electrodes. Therefore, the position of the electrodes on the animal is very important. Table 6.1 Comparison for the Color of Electrodes and Cable Lead European Standard U.S.
Page 57: Ecg Display
Chapter 6 Parameter Monitoring Warning  ECG electrodes be placed between the electrosurgical equipment grounding plate and electrosurgical knife to prevent burning when electrosurgical equipment is in use. Electrosurgical equipment cables should not be twisted with ECG cables.  Electrodes are strictly prohibited from being placed close to the electrosurgical equipment grounding plate when electrosurgical equipment is in use.
Page 58: Ecg Setup
Chapter 6 Parameter Monitoring 6.1.7 ECG Setup  Open ECG menu Methods to Open [ECG Setup]:  Select [Main Menu]-[Parameters]-[ECG Setup].  Select ECG parameter region and open [ECG Setup]. Figure 6.4 ECG Setup  Filter Mode Setup Open the menu [ECG Setup] and select [Filter]: Diagnose: for diagnostic quality requirements.
Page 59: St Analysis
Chapter 6 Parameter Monitoring PR: Pulse Rate as HR/PR alarm source. Auto: when ECG measure is started and effective HR are obtained, the monitor will use ECG-derived heart rate as its alarm source. In case heart rate is not available, e.g. when leads are not connected and there has been one pulse source that is useable, the monitor will automatically use the pulse rate derived from the current measure as the pulse source that is used as its alarm source.
Page 60 Chapter 6 Parameter Monitoring  ST Analysis On/Off Select [Main Menu]-[ECG Setup]-[ST Analysis>>] or parameter region to enter ST Analysis window. ST segment can be set [On] or [Off].  Filter Mode ST Analysis function proceeds only when the Filter Mode is in the Diagnose Mode. ST Analysis function will be automatically stopped when the Filter Mode is switched to ‗Monitor‘...
Page 61: Arrhythmia Monitoring
Chapter 6 Parameter Monitoring  Determining ST Analysis Point ST measured value is the vertical drop between the pre-set ISO and ST points and the crossing point of ECG waveforms, as in Figure 6.8: Figure 6.6 ISO and ST Analysis Point ISO and ST points are required to be adjusted when animal‘s HR or ECG waveforms are undergoing obvious changes.
Page 62: Arrhythmia Alarm
Chapter 6 Parameter Monitoring  Viewing Arrhythmia Waveform Figure 6.7 Arrhythmia Waveform Example  Arrhythmia Rhythm State Information This series of monitors display arrhythmia rhythm state information including: Asystole, VT (ventricular tachycardia), Non-Sustained VT, Tachy (tachycardia), Brady (bradycardia), Vent Rhythm (ventricular rhythm), Bigeminy, Trigeminy, Irregular Rhythm, SNR (sinus rhythm), Paced Rhythm and Unknown Rhythm.
Page 63 Chapter 6 Parameter Monitoring Single PVC is detected in normal heartbeat. Alarm) The average heart rate is greater than the limit of the Tachycardia tachycardia. The average heart rate is lower than the limit of Bradycardia bradycardia. Adjoining dominant rhythm of ventricular heart beats exceeds idioventricular rhythm threshold VR(ventricular rhythm) numbers and heart rate is lower than ventricular...
Page 64 Chapter 6 Parameter Monitoring  Please set the fatal arrhythmia alarm switch in [User Maintain>>]-[Alarm Config>>]-[Fatal Arrh.Off]; when [Fatal Arrh.Off] is enabled, the fatal arrhythmia function is stopped, and when disabled, it can’t be stopped.  When [Fatal Arrh.Off] is disabled, the button [All Off] is invalid and any user operations are disabled, also.
Page 65 Chapter 6 Parameter Monitoring  Arrhythmia Alarm Link Red Arrhythmia Alarm Asystole VFib/VTac VTac Ventricular bradycardia Extreme-Tachy Extreme-Brady Yellow Arrhythmia Alarm Heart Beat Detection Alarm Link PVC Alarm Link Heart Rate Alarm Link HeartBeat Pause Non-Sustained VT Tachycardia Bradycardia Run PVCs>2 Missed Beats Couplet PVCs **R on T...
Page 66 Chapter 6 Parameter Monitoring For example, when ‗R on T‘ alarms, the ‗V-Trigeminy‘ on the same link will not alarm even if it takes place; if ‗Extreme-Tachy‘alarm is triggered, 'R on T' will be replaced due to its lower priority even if they belong to two different links.
Page 67: Ecg Relearn
Chapter 6 Parameter Monitoring 6.1.11 ECG Relearn  Manually Starting ECG Relearn During ECG monitoring, you may need to start ECG relearn when the patient‘s ECG templates undergo significant changes. Changes of ECG templates may lead to:  Wrong arrhythmia alarm ...
Page 68: Resp Display
Chapter 6 Parameter Monitoring Attention  Resp monitoring is not applicable to animals having a large-range of activities, lest any wrong alarm is possibly triggered. 6.2.2 Resp Display Resp data display interface is shown as Figure 6.11: Figure 6.9 Resp Data Display 6.2.3 Placing Respiration Electrodes Before placing, you need to treat an animal‘s skin where the electrodes are to be placed, as referred to in skin treating method in the ECG section.
Page 69 Chapter 6 Parameter Monitoring Figure 6.10 Resp Setup  Apnea Delay Setup Select [Apnea Delay]: 10s, 15s, 20s, 25s, 30s, 35s and 40s.Its default is 10s.When apnea delay is set, the monitor will alarm in case the apnea period exceeds the preset values. ...
Page 70: Pr General Description
Chapter 6 Parameter Monitoring  Manual Mode In the Manual mode, users are required to set the respiratory detection level. Select [Upper Line] and [Lower Line] to manually relocate the detection level dotted line on the respiratory waveforms. Once determined, the detection level will not automatically adapt to different depths of respiration. Thus, users are required to readjust the detection level to adapt to changes in the depths of respiration according to actual conditions.
Page 71: Pulse Volume Setup
Chapter 6 Parameter Monitoring 6.3.4 Pulse Volume Setup Select the PR parameter region or open the [SpO Setup] menu, and then select [Pulse Volume]: 0～10. 6.4 SpO 6.4.1 SpO General Description plethysmography parameter measures arterial pulse oxygen saturation, or the percentage of total oxyhaemoglobin.
Page 72: Safety Information
Chapter 6 Parameter Monitoring Pulse rate (PR): pulse rate measured every minute. %: blood oxygen unit. 6.4.2 Safety Information Warning  Only the blood oxygen sensor specified in the User manual is allowed; and it should be used by following all warnings and warnings specified in the User manual. ...
Page 73: Monitoring Steps
Chapter 6 Parameter Monitoring Explain  The materials that contact with animals, or may come into contact with other personnel are non-toxic and had no impact on tissues, but long-term exposure should be avoided.  For incomplete signals, if the plethysmography waveform is displayed, determine the normalization coefficient according to the maximum value and the minimum value in the period of time of the signal, and normalize the display signal to 0~127.
Page 74: Spo 2 Setup
Chapter 6 Parameter Monitoring Clip the probe to the tongue or ears of the tested animals, by referring to Figure 6.15. Figure 6.13 Diagram on Pulse Oximetry Probe and Tougue Positions Attention  Don’t fold or twist the cables. 6.4.4 SpO Setup Open the [SpO Setup] menu by:...
Page 75: Influencing Factors Of Measure
Chapter 6 Parameter Monitoring  PR Source Setup Select [PR Source]: SpO , IBP1, IBP2 and Auto. The system automatically switches the [PR Source] to [Auto] when the current PR source is not available.  Alarm Source Setup As referred to Alarm Source Setup in section 6.1.6. ...
Page 76: Nibp
Chapter 6 Parameter Monitoring 6.5 NIBP 6.5.1 NIBP General Description Blood pressure measure includes invasive (by directly inserting sensors into blood vessel) and non-invasive methods. The invasive method directly measures blood pressure through arterial retention needles; but this method may put animals at some risk, so it is used only it is necessary for the animal‘s homodynamic. There are several non-invasive measuring methods, among which the Coriolis sound method and the oscillation method are more prominent.
Page 77: Safety Information
Chapter 6 Parameter Monitoring while the oscillation method is based on oscillatory wave envelope of the cuff pressure, the deflation speed and heart rate has a relatively small influence on the measuring accuracy. It is statistically shown that the measured values from the oscillation method may be smaller than that from the Coriolis sound method where the high blood pressure measure is concerned, while the values from the oscillation method for low blood pressures may be larger than that of the Coriolis sound method.
Page 78 Chapter 6 Parameter Monitoring The subject should be in a horizontal position and the cuff should be placed level with the heart for the most accurate results, other postures may cause inaccurate measures. Neither movement nor cuff touch is allowed before and during measure and the gas valve connecting the cuff and the monitor should be guaranteed smooth and without being twisted.
Page 79: Measure Restriction
Chapter 6 Parameter Monitoring 6.5.3 Measure Restriction Measure may be inaccurate or cannot be conducted in the following conditions: Blood vessels have severe convulsion, vasoconstriction and excessively weak pulse. The measure is unreliable or inefficient when animals have extremely low or high heart rate or irregular arrhythmia, particularly atrial fibrillation.
Page 80: Nibp Display
Chapter 6 Parameter Monitoring Select appropriate cuff (applicable limb perimeters labeled). The cuff width should be 40% of the limb perimeter (50% for animals < 10 kg) or 2/3 of the upper arm. The length of the inflated cuff should be sufficient to encircle 50-80% of the animal‘s limb.
Page 81: Nibp Setup
Chapter 6 Parameter Monitoring Figure 6.16 NIBP Data Display Measure time Measure mode Higher and lower alarm limits Systolic pressure/Diastolic pressure Mean pressure NIBP unit 6.5.7 NIBP Setup Select [Main Menu]-[Parameters]-[NIBP Setup] or select NIBP parameter region to open the window [NIBP Setup].
Page 82 Chapter 6 Parameter Monitoring [Stop All.] to terminate NIBP measure. Automatic Measure Select [Measure Mode] and then set: Auto. Press the button [NIBP] on the front panel or [Start NIBP] to manually start the first measure, and the system will automatically and repeatedly perform NIBP measure according to the time intervals defined in [Interval] when the first measure is done.
Page 83: Nibp Leakage Test
Chapter 6 Parameter Monitoring  Venipuncture Users can inflate with NIBP cuff to produce a pressure appropriate for blocking venous vessels and thus assisting venipuncture. Select [Venipuncture>>] in the window [NIBP Setup] and then set [Cuff Pressure] in the pop-up menu for values for venipuncture pressure.
Page 84: Nibp Accuracy Test
Chapter 6 Parameter Monitoring Attention  The [Animal Category] should be set [> 20 kg] before conducting NIBP leakage tests.  Press either the button [NIBP] on the front panel or [Stop NIBP Leakage Test], or [Stop All] and [Stop NIBP] on the interface [NIBP Setup] during leakage test to terminate leakage test. ...
Page 85: Temp
Chapter 6 Parameter Monitoring Warning  NIBP accuracy testing should be conducted once every two years (or in accordance with hospital’s procedures), or when you find readings are incorrect. 6.6 Temp 6.6.1 General Description This series of monitors‘ measure body temperature by means of a temperature sensor by the following two channels: as Figure 6.20 shows.
Page 86: Safety Information
Chapter 6 Parameter Monitoring 6.6.2 Safety Information Explanation  When body temperature exceeds the measuring range, alarm is displayed on the screen. Please check if the body temperature sensor is on the animal’s body correctly and shift it to the proper positions if needed.
Page 87: Measure Display
Chapter 6 Parameter Monitoring 6.6.4 Measure Display This series of monitors can display T1, T2 and TD (their difference) through two body temperature channels (T1 and T2). Figure 6.21 Temp Data Display 6.6.5 Temp Unit Setup Select [Main Menu]-[Maintenance]-[User Maintain>>], input passwords and select [Units Setup>>]-[Temp], the temperature unit can be: ℃...
Page 88: Monitoring Steps
Chapter 6 Parameter Monitoring please refer to the Accessory Use Manual for more details.  If the packaging of the invasive pressure sensor marked for disinfection is damaged, please stop using it and contact the provider of the invasive pressure sensor. ...
Page 89: Ibp Display
Chapter 6 Parameter Monitoring 6.7.4 IBP Display Pressure waveforms and values are displayed on the IBP measuring interface, and different pressure label correspond to different displayed contents. This manual take the indicator Art or CVP as an example. Figure 6.23 IBP Waveform and Data Display 1.
Page 90: Sensor Zero-Calibration
Chapter 6 Parameter Monitoring  Sensitivity Setup The blood pressure values displayed on the monitor are resulting by averaging data sampled within a given period of time. A shorter averaged time represents higher response speed of the monitor yet lower measuring accuracy when the animal‘s blood pressure values are changing.
Page 91: Co (Optional)
Chapter 6 Parameter Monitoring 6.8 CO (Optional) 6.8.1 General Description The monitor adapts an infrared absorption technique to measure the CO concentration in the animal‘s airway. Its principle is based on the CO molecular absorption of infrared optical energy of a certain wavelength and the absorbed energy is directly related to the CO concentration.
Page 92: Side-Stream Co 2 Module
Chapter 6 Parameter Monitoring  Place the module cable carefully to minimize the possibility of animals being wound in it.  Don’t soak the CO module in liquids or sterilize it.  Animal’s breathing system of water vapor can bring condensation and vapor in the sampling tube adapter dewatering device .The operator should observe frequently and intervene water vapor system.
Page 93 Chapter 6 Parameter Monitoring  Brief Description on Measure This series of monitors allow selection of different side-stream CO modules, and the measuring method for side-stream CO module will be discussed in the following by taking the Kingst Side-Stream KM7002-V33 module as the example.
Page 94: Main-Stream Co 2 Module
Chapter 6 Parameter Monitoring module is not in use to prolong the service life of the water tank and module.  The filled dewatering bottles must be quickly replaced and exchanged to prevent any damage to the module.  Don’t use this module for expiratory gas measure when a dewatering bottle is not connected, for the moist expiratory gases may cause errors to the measure and may shorten the module’s service life due to accumulation of humid gases.
Page 95 Chapter 6 Parameter Monitoring  After the life cycle of the CAPNOSTAT5 sensor and its accessories have been met, disposal should be accomplished following national and local requirements.  Nitrous oxide, elevated levels of oxygen and helium can influence the CO measurement.
Page 96: Co Setup
Chapter 6 Parameter Monitoring The monitor will display the ‗Sensor Warm Up‘ message for approximately one minute while the sensor and adapter warm to operating temperature. The message disappears when the sensor is ready for use. Attention  Warm up time varies with ambient temperature of the module. 4.
Page 97 Chapter 6 Parameter Monitoring  Apnea Delay Set apnea delay time to trigger the monitor‘s alarm in case the animal‘s asphyxia time exceeds the preset values.  BTPS Compen The Main-Stream CO sensors are built with heating elements to prevent water from condensing, thus, it is unnecessary to set temperature compensation when the Main-Stream module is in use.
Page 98: Zero
Chapter 6 Parameter Monitoring  Sweep Select [Sweep]: 6.25 mm/s, 12.5 mm/s and 25.0 mm/s. Set the waveform scanning speed.  Pump Switch Select [Pump Switch]: Off or On. 6.8.5 Zero The purpose of zero calibration is to eliminate the influence of baseline drift on results to guarantee the accuracy of the measured results in the process of measuring.
Page 99: Calibrate
Chapter 6 Parameter Monitoring Warning  Incorrect zero calibration may cause inaccurate measured data. 6.8.6 Calibrate Explanation  Despite being unnecessary for regular calibrations, the side-stream module needs calibrating once a year or when the measured values have obviously deviated. ...
Page 100: Influencing Factors Of Measure
Chapter 6 Parameter Monitoring Warning  It is suggested that calibration is conducted by users with the help of authorized technicians, since incorrect calibration may yield incorrect results. 6.8.7 Influencing Factors of Measure  Leakage or internal leakage of sampled gases. ...
Page 101: Chapter 7 Alarm
Chapter 7 Alarm Chapter 7 Alarm 7.1 General Description Alarm means acoustic and optical prompts provided to the medical staff by the monitor in response to the changes in the vital signs of the animal that is being monitored or to problems with the monitoring of the animal following a mechanical breakdown of the monitor.
Page 102: Alarm Setup
Chapter 7 Alarm ‗*‘ represents a low-level alarm. But for technical alarms, no symbol ‗*‘ is added in the front of the alarm messages in the technical alarm display region. Furthermore, the monitor also uses different background colors to discriminate different alarm levels. Red represents a high-level alarm, yellow represents a mid-level alarm and low-level physiological alarm, and blue represents a low-level technical alarm.
Page 103: Parameter Alarm Setup
Chapter 7 Alarm  Alarm Volume Setup Select [Main Menu]-[Alarm Setup] or directly press the shortcut key [Alarm Setup] on the screen: Select [Global Alarm]-[Alarm Volume]: x-10, x being the minimum value on the setting of the lowest alarm volume.0 means volume off and 10 means the maximum volume. ...
Page 104: Alarm Configuration
Chapter 7 Alarm Attention  This alarm triggers the recorder to output the waveforms of this alarm and values of all parameters only when both the alarm switch and the alarm records of a parameter are set [On]. Warning  Before starting the monitor, users are required to check whether the setting of the alarm limits are suitable for the animal.
Page 105 Chapter 7 Alarm prohibition period of High level arrhythmia alarm. The full prohibition in [Alarm Config>>] is defaulted on, When it is set as off, prohibition period ends automatically if it detects ECG signal.  Alarm Forbidden Time Setup Enter [Alarm Config>>] and select [1st Forbid Time] and [2nd Forbid Time]. [1st Forbid time]: Off, 1min, 2min, 3min, 4min and 5min.
Page 106: Alarm Pause
Chapter 7 Alarm Attention  In the ISO mode, the sound interval for the low-level alarm must be bigger than or equal to that of the mid-level alarm and the sound interval for the mid-level alarm must be bigger than or equal to that of the high-level alarm.
Page 107: Alarm Detection And Counter Measures
Chapter 7 Alarm Attention  When the system is in the ‘Alarm Silence’ state, any newly triggered alarms will release the ‘Alarm Silence’ state, but only the new one has normal audible and lighting alarms, leaving the silenced alarm still being silenced. ...
Page 108 Chapter 7 Alarm Attention  This button is invalid when other bed monitor is in a state of alarm shutdown or alarm pause.  This function can only be set in menu [User Maintain>>]-[Alarm Config>>]. Warning  The remote alarm silence control of other bed monitors has potential risks, please handle it cautiously.
Page 109: Chapter 8 Freeze And Review
Chapter 8 Freeze and Review Chapter 8 Freeze and Review 8.1 Enter Freeze Press the button on the panel in non-freeze state. System will display the freeze menu. Figure 8.1 Freeze Menu All waveforms are frozen, and waveforms are no longer refreshed or scrolling. Data in the parameter zone refresh normally.
Page 110: Review
Chapter 8 Freeze and Review 8.4 Review 8.4.1 Review Window Select [Main Menu] - [Review] or directly select physiological alarm display zone, as Figure 8.3 shows: Figure 8.3 Review Window User can select [Graphic Trends], [Tabular Trends], [Events], [NIBP List] or [Long ECG]to open the corresponding window.
Page 111 Chapter 8 Freeze and Review High-level alarm event will be respectively marked on the event bar display in red, Mid-level and Low-level alarm event is yellow, and the manual event is green.  View Mode Select Time or Event to view graphic trends window. ...
Page 112: Tabular Trends
Chapter 8 Freeze and Review 8.4.3 Tabular Trends Select [Tabular Trends] in the Review menu. Open the window as figure8.5 shows: Figure 8.5 Tabular Trends Window  Interval When the interval is selected as 5 s, 30 s, 1 min, 10 min, you can observe the trend variations in the last 72 hours;...
Page 113: Events
Chapter 8 Freeze and Review 8.4.4 Events Select [Events] in the Review menu, and open the window as Figure8.6 shows: Figure 8.6 Events Window Event that users can review are: manual event, arrhythmia event and parameter alarm event. When an event occur, monitor will store the time the event occurs, relative parameter values, and relative waveform data 5 secs before or after the event occurs, so that user can proceed with event review.
Page 114 Chapter 8 Freeze and Review Figure 8.7 Event Details Information Window The window waveform zone displays event related waveforms, and parameter zone displays related parameter values.  Events List Display events in list mode.  View Mode Event Select to browse the last event or the next event, push to browse the event that occurred first or occurred last.
Page 115: Nibp List
Chapter 8 Freeze and Review 8.4.5 NIBP List Select [NIBP List] in the Review menu, open the window as figure8.8 shows: Figure 8.8 NIBP List Window  Browse Select button to move the list data up and down; select button to turn pages up or down to move the list data;...
Page 116: Long Ecg
Chapter 8 Freeze and Review 8.4.6 Long ECG Select [Long ECG] in the Review menu, open the window as figure8.9 shows: Figure 8.9 Long ECG To choose the lead that stores the waveform data is set in [ECG Setup]- [Others>>]- [Save Curve]. Long ECG can browse the last 2 hours‘...
Page 117: Chapter 9 Calculations
Chapter 9 Calculations Chapter 9 Calculations 9.1 General Description This series of monitors have calculating functions. The calculated values are not animal data that is directly measured, but is the results calculated by the monitor based on the data provided. Attention ...
Page 118 Chapter 9 Calculations Medication dosage calculation use the following formulas: Concentration= Drug Quantity / Solusion Volume Infusion Rate= Dose / Concentration Infusion Time= Drug Quantity / Dose  Calculation Procedure Select [Animal Cat.] and [Drug Name]. In the list of drug names, you can select 15 kinds of drug below: Drug A, Drug B, Drug C, Drug D, Drug E, Aminophylline, Dobutamin, Dopamine, Epinephrine, Heparin, Isuprel, Lidocaine, Nipride, Nitroglycerin and Pitocin .
Page 119 Chapter 9 Calculations  Titration Table After finishing medication calculation, select [Titration Table >>] in the Dose window, open titration table, as figure 9.2 shows: Figure 9.2 Titration Table Reference: Dose, Infusion Rate, Drip Rate. Interval: 1-10. Dose Type: Dose/min, Dose/h, Dose/kg/minute, Dose/kg/h. After entering the above options, data in the titration table will change accordingly.
Page 120: Hemodynamic Calculation
Chapter 9 Calculations 9.3 Hemodynamic Calculation Select [Main Menu]- [Calculation]- [Hemodynamic Calculation], as figure 9.3 shows: Figure 9.3 Hemodynamic Calculation In Input interface, you can select [Review], [View outputs] and [Calculate]. 9.3.1 Review Select [Review], enter Review interface, which displays all the results, as figure 9.4 shows: Figure 9.4 Review interface In Review interface: Select [Original Calculate], return to the forward interface.
Page 121: Output
Chapter 9 Calculations Select to view results of forward or backward page. Select to view the first or the last result. Select to scroll up or scroll down to view more parameter values. 9.3.2 Output You can enter the Output interface by selecting [View outputs] or [Calculate] to view calculated outputs of the current input parameters.
Page 122: Renal Function Calculation, Oxygenation Calculation, Ventilation Calculation
Chapter 9 Calculations 9.4 Renal Function Calculation, Oxygenation Calculation, Ventilation Calculation Select [Main Menu]- [Calculation]- [Renal Function Calculation],[ Oxygenation Calculation], or [Ventilation Calculation], enter the corresponding calculation interface and you can select [Calculate] [Range] and [Record]. Select [Calculate], the output area displays corresponding calculation results. Values which are beyond the normal range will be displayed on a yellow background.
Page 123: Chapter 10 Recording (Optional)
Chapter 10 Recording (Optional) Chapter 10 Recording (Optional) 10.1 Recorder This series of monitors use a thermal array recorder, supports multiple recording types, including real-time recording, parameter crossed or alarm recording triggered by arrhythmia etc., and certain function-related recording. Figure10.1 Recorder ...
Page 124: Start And Stop Recording
Chapter 10 Recording (Optional)  Record Mode Setup Set Record Mode: Manual, Continuous.  Curve Setup This series of monitors‘ recorder can print at most 3 curves. User can select curves in the list that has popped up. Switch to Off, and the curve will not be printed. ...
Page 125: Install Recording Paper
Chapter 10 Recording (Optional)  Select [Clear All Record Tasks] in [Record Setup] menu.  Press [Record] button in the current window again. In the following conditions, the recorder will automatically stop recording:  Record task finished.  Recorder is out of paper. ...
Page 126 Chapter 10 Recording (Optional) head, you should soak it with alcohol, and then wipe it with a soft cloth. Never scratch the surface of the print head with a hard object, otherwise the print head will be damaged. Do not put on the cartridge cover back until the alcohol is completely dry.
Page 127: Chapter 11 Other Functions
Chapter 11 Other Functions Chapter 11 Other Functions 11.1 Power-On Press power switch button to power on/off the monitor. The monitor will do self-checking before entering main interface. 11.2 Colors of the Measured Physiological Parameters Select [Main Menu] - [System] - [Screen Setup]or directly select [Screen Setup] shortcut key to enter [Screen Config] window.
Page 128: Defaults
Chapter 11 Other Functions 11.4 Defaults Figure 11.2 Resume Default Setup Refer to Chapter 3.10.5. 11.5 System State Indicator Including AC / DC power supply indicator (there are indicator lights on the shell), battery voltage indicator (there are charging indicator lights on the shell), date and time indicator, central site online state indicator, animals‘ information indicator and demonstrating mode indicator.
Page 129: Chapter 12 Battery
Chapter 12 Battery Chapter 12 Battery 12.1 General Description This series of monitors have 1 rechargeable lithium battery installed to ensure its normal use in the event of power shutdown. When connected to AC power, the monitor can recharge the battery whether powered on or not. As we do not provide an external charger, the battery can only be recharged in the monitor.
Page 130: Battery Installation
Chapter 12 Battery  Immediately go far away from the battery if you find any liquid leakage or if the battery gives out a bad smell. If any electrolytic liquid is spilled onto your skin or clothing, immediately wash with clean water.
Page 131: Battery Recycling
Chapter 12 Battery Warning  Handle the battery with care. Please do not throw it on the ground or knock it onto other objects.  Do not connect the positive and negative polarity of the battery wrong; otherwise explosion might happen.
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Page 133: Chapter 13 Cleaning And Maintenance
Chapter 13 Cleaning and Maintenance Chapter 13 Cleaning and Maintenance 13.1 Cleaning of Monitor The equipment should be regularly cleaned. Before cleaning, please consult and read the rules of the hospital on equipment cleaning. Below are the types of cleaners to choose: ...
Page 134: Fan Cleaning
Chapter 13 Cleaning and Maintenance 13.3 Fan Cleaning To ensure smooth air flow and good ventilation, the fan should be cleaned if there is visible dust or other particles on the inlet or outlet. Attention  The cleaning interval should be shortened if the equipment is used in a region or an environment with heavy dust.
Page 135: Chapter 14 Maintenance
Chapter 14 Maintenance Chapter 14 Maintenance 14.1 Safety Information Warning  The removal or repair of the monitor can only be done by the well-trained professional technicians.  If you find any problems, please contact us or repair technician. 14.2 NIBP Accuracy Test Refer to 6.5.9 for details.
Page 136: User Maintain
Chapter 14 Maintenance 14.5 User Maintain Select [Main Menu]-[Maintenance]-[User Maintain>>]. Enter the user maintain password to open [User Maintain] menu. Figure 14.1 User Maintain Menu  Language Set the language of the monitor‘s display language, this setting is associated with the language configuration in the Factory Maintain, when the language configuration for certain kinds of language, then the language setting in the user maintain are the same several languages.
Page 137: Demo Model
Chapter 14 Maintenance  Net Setup By selecting [Net Setup>>], you may set the bed number, network mode (wired or wireless (optional)), local IP address, server IP address and default gateway. After finishing the setting, select [Storage Settings] to confirm. ...
Page 138: Monitor System Information
Chapter 14 Maintenance 14.7 Monitor System Information Select [Main Menu]-[Maintenance]-[System Info>>]. From this window, you may view information such as the startup time and last startup time of the machine, system compiles time, machine ID and configuration info. Select [Configuration Info>>] from the system information window. A window as shown in Figure 14.2 will pop Figure 14.2 Configuration Information This window displays the module configuration, including: Module Name, Hardware Version and Software Version.
Page 139: Chapter 15 Troubleshooting And Solutions
Chapter 15 Troubleshooting and Solutions Chapter 15 Troubleshooting and Solutions 15.1 Check Before Use Before use of the monitor, please perform the following inspections:  Check whether there is any mechanical damage.  Check all the exposed wires, inserts and accessories. ...
Page 140: No Display On Screen
Chapter 15 Troubleshooting and Solutions 15.4 No Display on Screen  Check if the machine has been turned on normally (Refer to 15.1).  Check whether the fan works normally, if normally, execute the next step;. If not, the power board may be broken, and you should contact the manufacturer.
Page 141: The Sound Of Sidestream Co
Chapter 15 Troubleshooting and Solutions 15.9 The Sound of Sidestream CO Pump Becomes High (Optional) Ensure the air tube is free of any foreign particles such as the water droplets, sputum or blood clots. Check if the color of the filter wool inside the water trap is dark (brown or black). If yes, change the water trap. If the problem remains, please contact the manufacturer.
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Page 143: Appendix A Packaging And Accessories
Append A Packaging and Accessories Appendix A Packaging and Accessories A.1 Packaging The equipment is packed in a high-grade corrugated carton by two layers. The carton is lined with foam to ensure the monitor will not be damaged during normal handling. Gross weight: 7.00 kg Dimension: 420(L) mm×...
Page 144 Append A Packaging and Accessories Temp 2-pin skin temperature probe (2.25K), reusable 1 piece According customer Power cable (V3203C+V1625A, 10A/250V)/ power cable, requirements European, 1.8m ～ 2m, black, H05VV-F/3G*0.75 AP24 with one (GB /AC24 European standard) Others Ground wire 1 piece User manual 1 piece Warranty Card...
Page 145: Appendix B Product Specifications
Append B Product Specifications Appendix B Product Specifications B.1 Safety Specifications B.1.1 Product Classification For classification of this series of monitors comply with IEC60601-1, please refer to Table B.1. Table B.1 Module Classification Type of Degree of Degree of Degree of Protection Protection Protection...
Page 146: Environment Specifications
Append B Product Specifications B.1.2 Environment Specifications Equipment Environment (Host, Recorder and IBP Module) Humidity Temperature Atmospheric Pressure Item (Non-Condensing) 0℃～40℃ 442.5 mmHg～805.5 mmHg Operating 15%～80% (32℉～104℉) (59 kPa～107.4 kPa) -20℃～55℃ 165 mmHg～805.5 mmHg Storage&Transport 10%～93% (-4℉～140℉) (22 kPa～107.4 kPa) Note: You can refer to B.6 Measuring Specifications to get the environment specifications of optional configurations B.1.3 Power Specifications...
Page 147 Append B Product Specifications Horizontal Resolution 16 dots/mm (Paper Speed: 25.0 mm/s) 8 dots/mm Vertical Resolution 50 mm× 20 m Printing Paper Size 12.5 mm/s; 25.0 mm/s; 50.0 mm/s Paper Speed Max. 3 waveforms Waveform Battery 182 mm× 71 mm× 25.5 mm Dimensions Weight 0.3 kg...
Page 148: Data Storage
Append B Product Specifications ECG Analog Signal Output Surgery mode: 1 Hz～15 Hz Bandwidth Monitor mode: 0.5 Hz～40 Hz reference 10Hz) Diagnose mode: 0.05 Hz～150 Hz 25ms (Wave filter closed under diagnose mode) Max. Transmission Delay 1 V/mV ± 5% Sensitivity Using the method described in 4.2.7.1 of AAMI EC11 to test the overall system error, which is within ±5%;...
Page 149: Wireless Network (Optional)
Append B Product Specifications B.5 Wireless Network (Optional) Applicable Standard IEEE 802.11b/g, compatible with wifi Safe to use distance 20 cm Frequency Range 2.412 GHz～2.472 GHz Signal Path 1-13 Transmission Distance 30 m (Open area without obstruction) B.6 Measuring Specifications B.6.1 ECG Monitoring 3-Lead ECG input (Optional) Input Mode...
Page 150 Append B Product Specifications electrosurgical knife is not activated. Diagnose Mode: ≥89 dB CMRR Surgery & Monitor Mode: ≥100 dB Monitor Mode: ≥0.3 s Time Constant Diagnose Mode: ≥3.2 s Surgery Mode: 1 Hz-15 Hz; Monitor Mode: 0.5 Hz-40 Hz; Diagnose Mode: Frequency Response 0.05 Hz-150 Hz.
Page 151 Append B Product Specifications Alarm upper limit for 10～20 kg: (Lower limit+2) bpm～350 bpm Alarm upper limit for ＜10 kg: (Lower limit+2) bpm～350 bpm Alarm lower limit for ＞20 kg: 15 bpm～ (Upper limit-2)bpm Lower Limit of ECG Heart Rate Alarm lower limit for 10～20 kg: 15 bpm～...
Page 152: Respiration (Resp) Monitoring
Append B Product Specifications Capacity Part 4.1.2.1 c). The heart rate moniter inhibits all T-waves with amplitude lower than 1.2 mV, 100msQRS wave groups, T-wave period 180 ms and QT period 350ms. a) Monitoring type: Asystole, VFib/VTac, VTac, Ventricular bradycardia, Extreme-Tachy, Extreme-Brady, Non-Sustained VT, PVC, Tachycardia, Bradycardia, VR(ventricular...
Page 153: Spo 2 Monitoring
Append B Product Specifications Tolerance higher. The tolerance is not defined for other ranges. Within 10 s～40 s (Increase/decrease by 5s for each rotation of the knob), the Asphyxia Alarm Tolerance asphyxia alarm tolerance is ± 5 s. Alarm Limit Specifications Range Alarm upper limit for ＞20 kg: (Lower limit+2) rpm ～100 rpm Alarm upper limit for 10 ～20 kg: (Lower limit+2) rpm ～100 rpm...
Page 154: Nibp Monitoring
Append B Product Specifications Alarm lower limit for ＞20 kg: 25 bpm～ (Upper limit-2)bpm Alarm lower limit for ＜10～20 kg: 25 bpm～ (Upper limit-2)bpm PR Lower Limit Alarm lower limit for ＜10 kg: 25 bpm～ (Upper limit-2)bpm PR from SpO Module Range 30 bpm～250 bpm...
Page 155 Append B Product Specifications Inflation Pressure 10～20 kg: 80 mmHg～210 mmHg (10.7 kPa～27.9 kPa) Setting ＜10 kg: 60 mmHg～140 mmHg (8.0 kPa～18.6 kPa) ＞20 kg: 160 mmHg (21.3 kPa) Default Initial 10～20 kg: 140 mmHg (18.6 kPa) Inflation Pressure ＜10 kg: 90 mmHg (12.0 kPa) Measuring Tolerance of Pressure Source...
Page 156: Temperature (Temp) Monitoring
Append B Product Specifications B.6.6 Temperature (Temp) Monitoring Range 0℃～50℃ (32℉～122℉) Measuring Method Thermal resistance method Accuracy The measuring tolerance is ± 0.1℃ (exclusive of probe tolerance) Updating Interval 2252 Ω (25℃) Nominal Resistance of Temp. Sensor Type of Temp. Sensor YSI400 Sensor or its Compatible Sensor (Precision±...
Page 157: Monitoring (Optional)
Append B Product Specifications Lower Limit of Mean Blood Pressure (-6.7 kPa～(Upper limit -0.3)kPa) Lower Limit of Diastolic Blood Pressure Lower Limit of Systolic Blood Pressure -6 mmHg～(Upper limit-2)mmHg Lower Limit of Mean Blood Pressure (-0.8 kPa～(Upper limit-0.3)kPa) Lower Limit of Diastolic Blood Pressure (Lower limit+2)mmHg～40 mmHg Upper Limit of Mean Blood Pressure ((Lower limit+0.3)kPa～5.3 kPa)
Page 158 Append B Product Specifications 0 mmHg～40 mmHg (0 kPa～5.3 kPa), ± 2 mmHg (0.27 kPa) 41 mmHg～70 mmHg (5.5 kPa～9.3 kPa), ± 5% of the reading Accuracy 71 mmHg～100 mmHg (9.4 kPa～13.3 kPa), ± 8% of the reading (Gas Temp. at 25℃) 101 mmHg～150 mmHg (13.4 kPa～20 kPa), ±...
Page 159 Append B Product Specifications Operating humidity 10 %～90 % (non-condensing) Storage humidity 0 %～90 % (non-condensing) Storage atmospheric pressure 50 kPa～106 kPa (375 mmHg～795 mmHg) 0 mmHg～40 mmHg (0 kPa～5.3 kPa), ± 2 mmHg (0.27 kPa) Accuracy 41 mmHg～70 mmHg (5.5 kPa～9.3 kPa), ± 5% of the reading (Environment Temp.
Page 160: Recorder Specifications (Optional)
Append B Product Specifications When ＜5.0%: ± 0.3% (± 2.0 mmHg) (0.27 kPa) Accuracy When ≥5.0%:＜6% of the reading Range of Breathing Rate 3 rpm～150 rpm Accuracy of Breathing Rate 1% or ± 1 rpm, whichever is higher. Asphyxia Alarm Delay 30 s, 35 s, 40 s, 45 s, 50 s, 55 s, 60 s Automatic Pressure Compensation Alarm Limit Specifications...
Page 161: Appendix C Alarm Information
Append C Alarm Information Appendix C Alarm Information  Physiological Alarm Information Physiological Parameters Alarm Information Triggering Condition Treatment Measure Check the physiological condition of the xx Too High xx value exceeds the alarm upper limit. animal and confirm if the setting of animal type and alarm limit is suitable to the xx Too Low xx exceeds the alarm lower limit.
Page 162 Append C Alarm Information minute R on T R on T detected within the last minute Ventricular premature of 2 or more Multiform PVCs forms is detected in the last minute Not detecting heart pacing within HeartBeat Pause preset cardiac arrest threshold time Unable to detect the heart pacing within 1.75 times of the mean RR Missed Beats...
Page 163 Append C Alarm Information Alarm Information Triggering Condition Treatment Measure The connection between the electrode and the animal is loose or fallen, or the connection between lead line and Check the connection between electrode and main cable is loosened. (Integrated ECG RLF C Lead Off animal, as well as the connection between display is used for showing all...
Page 164 Append C Alarm Information Air pump, A / D sampling or pressure sensor error, or pointer error in the IBP System Error Please contact the manufacturer for repair. software running, or system needs to be calibrated. Alarm Information Triggering Condition Treatment Measure The sensor is fallen from the animal Sensor Off...
Page 165 Append C Alarm Information calibration again after the sensor temperature is stabilized. Unplug and insert this module, or restart the System Error The system has failed. monitor. Unplug and insert this module, or restart the Hardware Error The CO module has failed monitor.
Page 166 Append C Alarm Information equipment. Clear the print task and output the records Head of Print Hot The recorder has worked too long after the machine has cooled. Switch to AC power supply. Power supply by Voltage of Battery Too The battery voltage is low and cannot battery can only be used when the battery is maintain long-time monitoring...
Page 167: Appendix D Factory Default Setup
Append D FactoryDefault Setup Appendix D Factory Default Setup D.1 Animal Demographics Animal Demographics Default Setup ＞20kg Animal Cat. Paced D.2 Alarm Alarm Setup Default Setup Alarm Volume Alarm Delay Global ST Alarm Delay 30 s Limit Display Pause Time 120 s Alarm Mode Unlatch...
Page 168: Alarm Limit
Append D Factory Default Setup D.3 Alarm Limit D.3.1 > 20 kg High Level On/Off Record HR/PR(bpm) RR(rpm) NIBP-S(mmHg) NIBP-D(mmHg) NIBP-M(mmHg) 39.0 36.0 T1(℃) 39.0 36.0 T2(℃) Parameter Alarm TD(℃) 43.0 TB(℃) Art-S(mmHg) Art-D(mmHg) Art-M(mmHg) 13.6 CVP-M(cmH EtCO FiCO awRR(rpm) ST Alarm ST-X (mV) -0.2...
Page 169 Append D FactoryDefault Setup D.3.2 10~20kg High Level On/Off Record HR/PR(bpm) RR(rpm) NIBP-S(mmHg) NIBP-D(mmHg) NIBP-M(mmHg) 39.0 36.0 T1(℃) Parameter 39.0 36.0 Alarm T2(℃) TD(℃) Art-S(mmHg) Art-D(mmHg) Art-M(mmHg) CVP-M(cmH EtCO FiCO awRR(rpm) ST Alarm ST-X(mV) -0.2 Attention: ‘X’ represents Lead I, II, III, aVR, aVL, aVF, V, V1, V2, V3, V4, V5 or V6. AA1/AA2 representative one of the five anesthetic gas such as Des (Desflurane), Iso (isoflurane) and Enf (enflurane), Sev (sevoflurane) and Hal (halothane) D.3.3 <...
Page 170: Screen Setup
Append D Factory Default Setup T2(℃) 39.0 36.0 TD(℃) Art-S(mmHg) Art-D(mmHg) Art-M(mmHg) CVP-M(cmH EtCO FiCO awRR(rpm) Attention: AA1/AA2 representative one of the five anesthetic gas such as Des (Desflurane), Iso (isoflurane) and Enf (enflurane), Sev (sevoflurane) and Hal (halothane) D.4 Screen Setup Screen Setup Default Setup Interface Type...
Page 171: Ecg
Append D FactoryDefault Setup ℃ Show Unit Disable Notch Filter 50 Hz ECG Off Level Off Level Tone Modulation Other Setup Record Bold Curve Curve Draw Ladder Wave Lines Thin Auto Screen Layout D.6 ECG Default Setup Filter Diagnose Ⅱ ECG1 Ⅰ...
Page 172 Append D Factory Default Setup (Not applicable to animals Cardiac Arrest < 10 kg) 100 bpm Sustained VT 15 s PVCs/min Extreme VT-H 140 bpm Extreme VB-L 30 bpm Arrhythmia Analysis Alarm On/Off Alarm Level Alarm Record Asystole High VFib/VTac High Extreme-Tachy Extreme-Brady...
Page 173: Nibp
Append D FactoryDefault Setup D.7 NIBP NIBP Setup Default Setup ＞20 kg: 160 mmHg (21.3 kPa) Initial Pressure 10～20 kg: 140 mmHg (18.6 kPa) ＜10 kg: 90 mmHg (12.0 kPa) Measure Mode Manual Interval 5 min ＞20 kg: 80 mmHg (10.6 kPa) Vein Puncture Pressure 10～20 kg: 60 mmHg (8.0 kPa) ＜10 kg: 30 mmHg (4.0 kPa)
Page 174: Ibp
Append D Factory Default Setup D.10 IBP IBP Setup Default Setup Label 0～140 Scale Channel 1 Setup Sweep 25.0 mm/s Filter Normal Sensitivity Label 0～80 Scale Channel 2 Setup Sweep 25.0 mm/s Filter Normal Sensitivity D.11 CO (optional) Setup Default Setup Apnea Delay 30 s BTPS Compen...
Page 175: Other Setup
Append D FactoryDefault Setup D.12 PR Other Setup Default Setup PR Source Auto Alarm Source Auto Pulse Volume D.13 Other Setup Other Setup Default Setup Ⅰ Curve 1 Ⅱ Trigger Manual Storage Waveform Curve 2 Curve 3 User Manual of Veterinary Monitor --163--...
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Page 177: Appendix E Emc- Guidance And Manufacture's Declaration
Appendix E EMC- Guidance and Manufacture‘s Declaration Appendix E EMC- Guidance and Manufacture’s Declaration E.1 Guidance and manufacture’s declaration-electromagnetic emissions for all EQUIPMENT and SYSTEMS Guidance and manufacturer´ s declaration – electromagnetic emission The Veterinary Monitor is intended for use in the electromagnetic environment specified below. The customer or the user of Veterinary Monitor should assure that it is used in such an environment.
Page 178 Appendix E EMC- Guidance and Manufacture‘s Declaration EN 61000-4-5 ± 2 kV common mode ± 2 kV common environment. mode < 5% UT < 5% UT (>95% dip in UT ) (>95% dip in UT ) for 0.5 cycle for 0.5 cycle Mains power quality should be that of a Voltage dips, short 40% UT...
Page 179 Appendix E EMC- Guidance and Manufacture‘s Declaration E.3 Guidance and manufacture’s declaration-electromagnetic immunity for EQUIPMENT and SYSTEMS those are not LIFE-SUPPORTING Guidance and manufacturer´ s declaration – electromagnetic immunity The Veterinary Monitor is intended for use in the electromagnetic environment specified below. The customer or the user of the Veterinary Monitor should assure that it is used in such an environment.
Page 180: Recommended Separation Distance Between Portable And Mobile Rf Communications Equipment And The Equipment Or System For Equipment Or System That Are Not Life-Supporting
Appendix E EMC- Guidance and Manufacture‘s Declaration a. Field strengths from fixed transmitters, such as base stations for radio (cellular/cordless) telephones and land mobile radios, amateur radio, AM and FM radio broadcast and TV broadcast cannot be predicted theoretically with accuracy. To assess the electromagnetic environment due to fixed RF transmitters, an electromagnetic site survey should be considered.
Page 182 Shenzhen Biocare Bio-Medical Equipment Co., Ltd. Address: #16-1, Jinhui Road, Jinsha Community, Kengzi Sub-District, Pingshan New District, 518122 Shenzhen, PEOPLE'S REPUBLIC OF CHINA Tel: 86 -755 -33005899 Fax: 86-755-27960643 Website: http://www.biocare.com.cn...

Biocare PM-900 User Manual

Preface

Customer Required Reading

Chapter 1 Operation Safety Information

Chapter 2 Overview

Chapter 3 Basic Operation

Chapter 4 Animal Management

Chapter 5 User Interface

Chapter 6 Parameter Monitoring

Chapter 7 Alarm

Chapter 8 Freeze and Review

Chapter 9 Calculations

Chapter 10 Recording (Optional)

Chapter 11 Other Functions

Chapter 12 Battery

Chapter 13 Cleaning and Maintenance

Chapter 14 Maintenance

Chapter 15 Troubleshooting and Solutions

Appendix A Packaging and Accessories

Appendix B Product Specifications

Appendix C Alarm Information

Appendix D Factory Default Setup

Appendix E EMC- Guidance and Manufacture's Declaration

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