Mindray VS-600 Vital Signs Monitor Service Manual
The Mindray VS-600 Vital Signs Monitor is a compact and portable device designed for spot-check monitoring of physiologic parameters, including SpO2, PR, NIBP and TEMP, on adult, pediatric, and neonatal patients in healthcare facilities. It provides clear and accurate readings of vital signs, allowing healthcare professionals to quickly assess patient conditions.
Advertisement
Advertisement
VS-600
Vital Signs Monitor
Service Manual
Intellectual Property Statement
SHENZHEN MINDRAY BIO-MEDICAL ELECTRONICS CO., LTD. (hereinafter called Mindray) owns the intellectual property rights to this product and this manual.
This manual may refer to information protected by copyrights or patents and does not convey any license under the patent rights of Mindray, nor the rights of others. Mindray does not assume any liability arising out of any infringements of patents or other rights of third parties.
, , and are the registered trademarks or trademarks owned by Mindray in China and other countries.
Revision History
This manual has a revision number. This revision number changes whenever the manual is updated due to software or technical specification change. Contents of this manual are subject to change without prior notice. The version information of this manual is as follows:
Version number: 1.0
Release time: May 2013
© Copyright 2013 Shenzhen Mindray Bio-Medical Electronics Co., Ltd. All rights reserved.
I
Preface
Manual Purpose
This manual provides detailed information about the assembling, dissembling, testing and troubleshooting of the equipment to support effective troubleshooting and repair. It is not intended to be a comprehensive, in-depth explanation of the product architecture or technical implementation.
This manual is based on the maximum configuration and therefore some contents may not apply to your product. If you have any question, please contact our Customer Service
Department.
Observance of the manual is a prerequisite for proper equipment maintenance and prevents equipment damage and personnel injury.
Intended Audience
This manual is for biomedical engineers, authorized technicians or service representatives responsible for troubleshooting, repairing and maintaining the equipment.
II
Contents
4.4.1 SpO
2
1
6.3.5 Removing the Parameter Board (SpO
2
Optional) and Power Management Board6-5
6.3.7 Disassembling AC/DC Power Board and Battery Converter Board ............................. 6-6
6.5.1 Removing the Temp Module PCBA and Temp Module Power Board PCBA............. 6-9
2
3
FOR YOUR NOTES
4
1
Introduction
1.1 Information of This Manual
A detailed revision history of this manual is recorded in the table below:
1.0 New
1.2 Safety Information
z
DANGER
Indicates an imminent hazard that, if not avoided, will result in death or serious injury.
z
WARNING
Indicates a potential hazard or unsafe practice that, if not avoided, will result in death or serious injury.
z
CAUTION
Indicates a potential hazard or unsafe practice that, if not avoided, could result in minor personal injury or product/property damage.
NOTE
z
Provides application tips or other useful information to ensure that you get the most from your product.
1.2.1 Dangers
There are no dangers that refer to the product in general. Specific “Danger” statements may be given in the respective sections of this manual.
1-1
1.2.2 Warnings
z z z z z
WARNING
All installation operations, expansions, changes, modifications and repairs of this product are conducted by Mindray authorized personnel.
There is high voltage inside the equipment. Never disassemble the equipment before it is disconnected from the AC power source or the battery.
When you disassemble/reassemble a parameter module, a patient leakage current test must be performed before it is used again for monitoring.
The equipment must be connected to a properly installed power outlet with protective earth contacts only. If the installation does not provide for a protective earth conductor, disconnect it from the power line and operate it on battery power, if possible.
Disposal of the packaging material should observe the applicable waste control regulations and keeping it out of children’s reach.
1.2.3 Cautions
CAUTION
z z z
Make sure that no electromagnetic radiation interferes with the performance of the equipment when preparing to carry out performance tests. Mobile phone,
X-ray equipment or MRI devices are a possible source of interference as they may emit higher levels of electromagnetic radiation.
Before connecting the receiver to the power line, check that the voltage and frequency ratings of the power line are the same as those indicated on the unit’s label or in this manual.
Protect the equipment from damage caused by drop, impact, strong vibration or other mechanical force during servicing.
1.2.4 Notes
NOTE
z
Refer to Operator's Manual for detailed operation and other information.
1-2
1.3 Equipment Symbols
NOTE
z
Not all the symbols listed below are applied to your equipment.
Caution: Consult accompanying documents(this manual)
Neonate
Power ON/OFF Pediatric
Clear Adult
Alternating current (AC) Equipotentiality
Battery indicator Input/Output
DEFIBRILLATION –PROOF
TYPE CF APPLIED PART
Date of manufacture
NIBP Start/Stop key Manufacturer
Serial number Insertion Direction
No alarming system
Protection against fluid ingress
The following definition of the WEEE label applies to EU member states only.
This symbol indicates that this product should not be treated as household waste. By ensuring that this product is disposed of correctly, you will help prevent bringing potential negative consequences to the environment and human health. For more detailed information with regard to returning and recycling this product, please consult the distributor from whom you purchased it.
* For system products, this label may be attached to the main unit only.
1-3
2
Theory of Operation
2.1 Overview
The monitor is intended for spot-check monitoring physiologic parameters, including SpO
2
,
PR, NIBP and TEMP, on adult, pediatric, and neonatal patients in healthcare facilities by clinical physicians or appropriate medical staff under the direction of physicians.
2.2 Connectors for Peripheral Devices
1
2
3
1. Input/Output connect (RS-232 connector)
This connector is used for software upgrade and DIAP communication.
2. AC power input
3. Equipotential grounding terminal:
When the equipment and other devices are to be used together, their equipotential grounding terminals should be connected together to eliminate the potential difference between them.
2-1
2.3 Main Unit
The main unit of the vital signs monitor consists of three parts:
Front housing assembly, consisting of main board, segment-code display, and Power
On/Off keypad;
Rear housing assembly: power module (AC/DC), power management and interface board (including SpO
2
isolation power), battery, NIBP module, and SpO
2
board
(including three types of configuration, i.e. Mindray, Masimo, and Nellcor); and,
External module: Temp module.
The following figure shows the main unit architecture of the vital signs monitor.
Front Housing Assembly
Segment-code display
I2C
Backlight
Main board
Power On/Off keypad
(indicator)
Rear Housing Assembly
2600mAh battery
Power management and interface board
Pump
NIBP module
SpO
2 board
(Mindray standard,
OEM optional)
NIBP receptacle
SpO
2 receptacle
External module
Temp module Temp probe
15V
AC-DC power module
AC-IN
External connector
Only RS232 port (for upgrade, screened for end users)
2-2
2.4 Front Housing Assembly
Main Board
Keypad
Main Board
The main board is the control center of the equipment. It provides communication and display functions, including:
Communication with SpO
2
board, and NIBP module through serial ports, starting parameter measurement, and reading measured results;
Communication with Predictive/IR (Infrared Radiation) Temp module through serial ports;
Communication with power management board through serial ports;
Extending an RS232 serial port;
Control over the Segment-code LCD display through I2C;
Providing backlight drive for segment-code display;
Recognition of keypad actions, and providing corresponding response;
Control over the beeper through IO port; and,
Providing 24 hour timing via the inner RTC.
Keypad
The keypad consists of elements like keypad and AC/Battery indicator etc.
2-3
2.5 Rear Housing Assembly
Power management and interface board
SpO
2
board
AC/DC power module
Battery compartment
NIBP module
Rear housing assembly consists of power module (AC/DC), power management and interface board (including SpO
2
isolation power), battery compartment, NIBP module, and
SpO
2
board (including three types of configuration, i.e. Mindray, Masimo, and Nellcor).
AC/DC Power Module
The AC/DC power board transforms the input AC into DC power, which is the power source for all voltages in the equipment.
Power management and interface board
The power management interface board mainly provides the following functions:
Charge and discharge of battery and charge detection;
DC/DC conversion: outputs 12V and 5V DC power;
Control over power On/Off key and AC, BAT indicator;
Communication transmission among parameter modules;
2-4
Providing isolation power for Mindray/OEM SpO
2
module; and,
Providing external connectors, and also filter and protection for these connectors.
NIBP Module
The NIBP module consists of blood pressure measurement board and pump and valve assembly, providing measurement acquisition of blood pressure data. The main functions of the NIBP module are:
NIBP measurement; and,
Data exchange with the main board through the serial ports.
SpO
2
board
The independently developed Mindray SpO
2
board provides SpO
2
measurement as good as other boards but with smaller size and lower consumption. The power management and interface board is also compatible with Nellcor NELL-1 SpO
2
board and Masimo MS-2013
SpO
2
board.
The SpO
2
board collects SpO
2
signals, processes SpO
2
algorithm and sends measurement results to the main board. The power management interface board provides isolation power for it.
2.6 External Module
An external Temp module can be extended on the monitor.
The independently developed Mindray Temp module consists of an isolation power board,
Temp measurement board, and probes. The Temp measurement board collects Temp signals, processes algorithm and sends measurement results to the main board.
2-5
FOR YOUR NOTES
2-6
3
Equipment Installation
3.1 Unpacking the Equipment
Open the package and take out the packing list. Check that all the articles included in the packing list are available and the quantity and specification are correct. Make sure that:
All the optional parts purchased by the customer shall also be checked.
Notify the supplier if provided components are not correct as compared to the packing list.
In case of damage during transportation, keep the packing material and notify the supplier immediately.
Keep the packing material till new equipment is accepted.
3.2 Preparation for Installation
3.2.1 Preparation for Installation Site
1. Ensure that the site meets all safety, environmental and power requirements.
2. Check that required power sockets are available.
3. Check that a network connector is available if the equipment needs to be connected to network.
3.2.2 Environmental Requirements
To avoid explosion hazard, do not use the equipment in the presence of flammable anesthetics, vapors or liquids. The environment where the equipment will be used should be reasonably free from vibration, dust and corrosive substances. If these conditions are not met, the system may not function normally.
The environmental specification is as follows:
Main Unit
Item
Temperature (℃)
Relative humidity
(noncondensing)
Altitude (kPa)
Operating environment
Storage environment
0 to 40 (without Temp module)
5 to 40 (with Temp module)
-30 to 70
15% to 95%
10% to 95%
57.0 to 107.4
16.0 to 107.4
3-1
NOTE
z
The environmental specifications of unspecified parameters are the same as those of the main unit.
3.2.3 Electrical Requirements
Check that the system cables, power cords, and power plugs are not damaged, and that the pins are not loose. In case of any damage, remove it from use. z z z
WARNING
Only power sockets with protective grounding can be used.
Use the supplied power cord only!
If you doubt the completeness of the installation and cabling of the external protective cables, disconnect the equipment from the power line and operate it on battery. Otherwise, patient or operator might be shocked.
Voltage
Current
100 to 240V AC
0.9 to 0.5A
3.3 Equipment Installation
Follow the procedure below to install the equipment:
1. Check the quantity of equipment and accessories as per the packing list.
2. Check for mechanical damages on the equipment and accessories.
3. Install the battery (optional). For detailed operations, please refer to the Operator's
Manual of the vital signs monitor.
5. Connect the accessories.
The vital signs monitor can be mounted on a wall bracket or on a trolley support. The wall bracket or trolley support can be ordered optionally. Each type of mounting bracket is delivered with a complete set of mounting hardware and instructions. For detailed installation information, please refer to Wall-mount Bracket Instructions for Use (PN:
0010-20-42933) and Rollstand Instructions for Use (PN: 0010-20-42934).
3-2
z z z
CAUTION
Use mounting brackets we supply or approve. If other compatible mounting bracket is used, be sure it can be safely used on the vital signs monitor.
The mounting bracket should be installed by our qualified service personnel, or engineers who have adequate knowledge on it.
If other mounting solution is used, the installation personnel and the customer should verify if it can be safely used on the equipment, and the customer assume the responsibility for any risk resulting from that.
3.4 Preparation for Power on
1. Before you start to make measurements, check the equipment for any mechanical damage and make sure that all external cables, plug-ins and accessories are properly connected.
2. Plug the power cord into the AC power source. If you run the equipment on battery power, ensure that the battery is sufficiently charged.
3. Press button on the front panel to turn on the equipment.
3-3
FOR YOUR NOTES
3-4
4
Testing and Maintenance
4.1 Introduction
To ensure the equipment always functions normally, qualified service personnel should perform regular inspection, maintenance and test. This chapter provides a checklist of the testing procedures for the equipment with recommended test equipments and frequency.
The service personnel should perform the testing and maintenance procedures as required and use appropriate test equipments.
The testing procedures provided in this chapter are intended to verify that the equipment meets the performance specifications. If the equipment or a module fails to perform as specified in any test, repairs or replacements must be done to correct the problem. If you have any question, contact our Customer Service Department. z z
CAUTION
All tests should be performed by qualified service personnel only.
Service personnel should acquaint themselves with the test tools and make sure that test tools and cables are applicable.
4.1.1 Test Equipment
See the following sections.
4.1.2 Test Report
Upon the completion of the tests, the table of preventative maintenance test reports and the table of maintenance test reports in this chapter should be kept properly.
4.1.3 Preventative Maintenance
Below are preventative maintenance tests which need to be performed on the monitor. The recommended frequency of preventative maintenance is at least once per year. See the following sections for detailed maintenance procedures.
Visual Inspection
NIBP test and calibration
4-1
4.1.4 Recommended Frequency
Check/Maintenance Item
Preventative Maintenance
Visual Inspection
Performance test
SpO
2
test
NIBP test and calibration
TEMP test
Electric safety tests
Pressure check
Leakage test
Module
Calibration
Recommended Frequency
When first installed or reinstalled.
1. If the user suspects that the measurement is incorrect.
2. Following any repairs or replacement of relevant module.
3. At least once every two years.
Note: At least once a year is recommended for NIBP.
For details, refer to Appendix A
1. Following any repair or replacement.
2. After the monitor drops.
3. At least once every two years.
Other tests
Power-on test
Battery check
Functional test
Performance test
1. When first installed or reinstalled.
2. Following any repairs or replacement of any main unit parts.
1. When first installed.
2. Whenever a battery is replaced.
Once per year or if the battery run time reduced significantly.
4.2 Visual Inspection
Perform an overall inspection on the appearance of the equipment. The test is passed if the equipment has no obvious signs of damage. Follow these guidelines when inspecting the equipment:
Carefully inspect the case, display screen, buttons, and knob for obvious signs of damage.
Inspect all external connections for loose connectors, bent pins or frayed cables.
Inspect all connectors on the equipment for loose connectors or bent pins.
Make sure that safety labels and data plates on the equipment are clearly legible.
4-2
4.3 Power-on Test
This test is to verify that the equipment can power up correctly. This test is passed if the equipment starts up by following this procedure:
1. Insert the battery in the battery compartment, and connect the equipment to the AC mains. The AC mains indicator and battery indicator light up.
2. Press button on the front panel to turn on the equipment. The work status indicator lights up inside the Power button.
3. The screen lights up.
4. The main interface is displayed. Now the equipment is correctly started.
4.4 Module Performance Tests
4.4.1 SpO
2
Test
Test Method 1
Tool required:
None
Test Procedures
1. Connect
2 sensor for adult to the SpO
2
connector of the monitor. Press to set the patient category to .
2. Apply the SpO
2
sensor to your ring finger (assume that you stay healthy).
3. Check the PR reading on the screen and make sure that the displayed SpO
2
is within
95% and 100%.
4. Remove the SpO
2
sensor from your finger and make sure that an alarm of SpO
2
Sensor
Off is triggered.
Measurement validation
The SpO
2
accuracy has been validated in human studies against arterial blood sample reference measured with a CO-oximeter. Pulse oximeter measurements are statistically distributed, and only about two-thirds of the measurements can be expected to fall within the specified accuracy compared to CO-oximeter measurements.
4-3
NOTE
z
The SpO
2 simulator can only be used to verify that the pulse oximeter operates properly. It cannot be used to verify the accuracy of the pulse oximeter or the
SpO
2
sensor. To verify the accuracy, clinical tests are required.
Test Method 2
Tool required:
SpO
2
simulator, Index-2 recommended
Test Procedures:
1. Connect the SpO
2
sensor to the SpO
2
simulator.
2. Selected the model and manufacturer of the SpO
2
module to be tested on the simulator, and set the simulator as follows: SpO
2
to 96% and PR to 80 bmp.
3. Set the patient type to adult, pediatric and neonate respectively. Observe the monitor and make sure the displayed SpO
2
and PR value fall in the following range.
Manufacturer SpO
2
PR
Mindray
Nellcor
Masimo
96% ± 2% (Adult, pediatric)
96% ± 3% (Neonate)
96% ± 2% (Adult, pediatric)
96% ± 3% (Neonate)
96% ± 2% (Adult, pediatric)
96% ± 3% (Neonate)
80 ± 3 bpm
80 ± 3 bpm
80 ± 3 bpm
4.4.2 NIBP Test
4.4.2.1
Leakage Test
NOTE
z
Perform NIBP leakage test before any other NIBP concerned test and calibration.
Tools required:
NIBP cuff for adult patient
Air tubing
Cylinder
Follow this procedure to perform the leakage test:
4-4
1. Press to set the patient category to .
2. Connect the NIBP cuff to the NIBP connector on the monitor.
3. Apply the cuff to the cylinder as shown below.
Monitor
Cylinder
Connector for NIBP cuff
Air tubing
Cuff
4. Start the monitor. Within 10 s after you hear a beep, press and hold the maintenance mode.
C
to enter
C
5. Press to enter the NIBP leakage test interface. In the PR parameter area, code
550 is displayed.
6. Press pressure area.
to start leakage test. The real-time pressure is displayed in the mean
In the process, you can press to terminate the current leakage test.
7. When the leakage test is completed, the cuff releases gas automatically.
If is displayed in the error code area, it indicates the leakage test is passed and that the system has no leakage. If is displayed, it indicates the system may have a leakage.
Check the tubing and connections for leakages. If you ensure that the tubing and connections are all correct, perform a leakage test again. If the problem persists, contact your service personnel.
You can either perform a manual leakage test:
4-5
1.
Perform steps 1 - 4 as described in Section 4.4.2.2 NIBP Accuracy Test.
2. Raise the pressure in the rigid vessel to 250 mmHg with the balloon pump. Then, wait for 5 seconds to let the measured values becoming stable.
3. Record the current pressure value, and meanwhile use a time counter to count the time.
Then, record the pressure value after 60 s.
4. Compare the two pressure values and make sure the difference should not be greater than 6 mmHg.
4.4.2.2
NIBP Accuracy Test
Tool required:
T-shape connector
Appropriate tubing
Balloon pump
Rigid Vessel with volume 500 ± 25 ml
Reference manometer (calibrated, with accuracy equal to or better than 0.75 mmHg)
Follow this procedure to perform the accuracy test:
1. Connect the equipments as shown below.
Monitor
Connector for NIBP cuff Appropriate tubing
Standard sphygmomanometer
Balloon pump
Rigid Vessel
2. Before inflation, check that the reading of the manometer is 0. If not, open the balloon pump to let the whole airway open to the atmosphere. Close the balloon pump after the reading is 0.
C
3. Start the monitor. Within 10 s after you hear a beep, press and hold to enter
C the maintenance mode. Then press to display the NIBP accuracy test interface.
In the PR parameter area, the code 555 is displayed.
4-6
4. Press pressure area.
to start accuracy test. The real-time pressure is displayed in the mean
In this process, you can press to terminate the current accuracy test. An invalid value is displayed in the mean pressure area.
5. Check the manometer values and the monitor values. Both should be 0 mmHg.
6. Raise the pressure in the metal vessel to 50 mmHg with the balloon pump. Then wait for 10 s to let the measured values become stable.
7. Compare the manometer values with the monitor values. The difference between the manometer and displayed values should be ± 3 mmHg.
8. Raise the pressure in the metal vessel to 200 mmHg with the balloon pump. Then wait for 10 s to let the measured values become stable. Repeat step 7.
If the difference between the manometer and displayed values is greater than 3 mmHg, contact your service personnel.
NOTE
z z
You can use an NIBP simulator to replace the balloon pump and the reference manometer to perform the test.
You can use an appropriate cylinder and a cuff instead of the rigid vessel.
4.4.2.3
NIBP Calibration
Contact the service personnel for NIBP calibration.
4-7
4.4.3 Temp Test
Tool required:
Resistance box (with accuracy above 0.1 Ω)
1. Connet the Temperature probe to Monitor. Connect the two wires (orange wires) of
Temp probe connector to the two ends of the resistance box.
2. Set the resistance box to 9882.0 Ω (corresponding temperature is 25.3℃).
3. Verify displayed tempreture value on monitor is within 25.3±0.1℃.
4. Set the resistance box to 6037.1 Ω (corresponding temperature is 37.0℃).
5. Verify displayed tempreture value on monitor is within 37.0±0.1℃.
6. Set the resistance box to 4619.2 Ω (corresponding temperature is 43.7℃).
7. Verify displayed tempreture value on monitor is within 43.7±0.1℃.
Please contact our service personnel if the Temp test fails.
NOTE
z
Due to the different application environment and the test object in vivo and vitro conditions, there is deviations in the measurement result. The maximum deviation
of 2.5℃ may exist in predictive Temp measurement by liquid bath techniques.
4.5 Electric safety tests
For details about electric safety tests, refer to Appendix A Electrical Safety Inspection.
4.6 Battery Check
Tool required:
None
Functional Test
1. If the equipment is installed with a battery, remove the battery first.
2. Verify that the equipment works correctly when running powered form an AC source.
3. Insert the battery per the procedures provided in the Operator’s Manual.
4. Remove the AC power cord and verify that the equipment still works correctly.
Performance Test
Perform the test by referring to the Battery chapter in the Operator's Manual and verify the operating time of the battery meets the product specification.
4-8
4.7 Maintenance Mode
4.7.1 Entering/Quitting Maintenance Mode
1. Start the monitor. Within 10 s after you hear a beep, press and hold the maintenance mode.
C
to enter
C
2. Press repeatedly to switch to different settings, including NIBP unit setup,
Temp unit setup, system time setup, NIBP leakage test, NIBP accuracy test, version information, restoring factory configuration, work time information, screen brightness adjustment and DIAP communication setup.
3. Press and hold to turn off the equipment. When the equipment is started next time, the changed settings take effect.
4.7.2 Checking Version Information
1. Enter maintenance mode.
2. Press
C
and switch to version information.
3. Press to toggle version information.
The following information is displayed on the monitor:
System software version;
NIBP module version;
SpO
2
module version;
Temp module version; and
Power management software version.
The indications of codes are listed below:
Version Screen display Indication of codes
System software version
“030 000” indicates version
03.00.00
4-9
NIBP module hardware version
“540” indicates version 05.04.00
Mindray SpO
2
module version
“223” indicates version 2.2.3
Masimo、Nellcor SpO
2
模块版本
“1210” indicates version 1.2.1.0
Temp module version “502” indicates version 5.0.2
Power management software version
“011” indicates version 01.01
4.7.3 Restoring Factory Default Configuration
1. Enter maintenance mode.
C
2. Press and switch to restore factory default configuration interface. In the PR parameter area, code 000 is displayed.
4-10
3. Press to change settings. restoring to the factory default configuration while current setting.
indicates that the current settings are
means to remain the
The default settings are:
NIBP unit: mmHg
Temp unit: ℃
Patient category: Adult
Beat sound: On
Temp position: oral
Brightness: 5
Maintenance and Test Report
Customer name
(See the above sections for detailed test procedures and contents)
Customer address
Servicing person
Servicing company
Equipment under test
(EUT)
Model of EUT
SN of EUT
Hardware version
Software Version
Test equipment Model/No. Expiration Date for Calibration
4-11
Test Contents Test Record
Visual Inspection
The case, display screen, buttons, power cord, wall mount, and accessories have no obvious signs of damage.
The external connecting cables are not frayed and the connector pins are not loose and bent.
The external connectors are not loose or their pins are not bent.
The safety labels and data plate are clearly legible.
Power-on test
The power-on test is passed. The power indicator works correctly and the monitor starts up properly.
Performance test
SpO
2
test
Measure SpO
2
on a healthy person’s finger and a PR value is displayed. The displayed SpO
2
value is within 95% and 100%.
NIBP test
The difference is within ±3 mm when 0, 50 or 200 mmHg is set for NIBP accuracy test.
There is no leakage with NIBP, or the manual leakage test result does not exceed 6 mmHg/min.
Temp test
The displayed Temp value on the monitor is within 37 ± 0.1
℃.
Electric safety tests
Refer to Appendix A Electrical Safety Inspection.
Battery Check
The monitor can operates correctly from battery power when an AC power failure accidentally occurs.
The monitor can operate independently on a single battery.
Test conclusion:
Tested by: Test date:
Test Result
(Pass/Fail)
4-12
5
Troubleshooting
5.1 Overview
In this chapter, equipment problems are listed along with possible causes and recommended corrective actions. Refer to the tables to check the monitor, identify and eliminate the troubles.
The troubles we list here are frequently arisen difficulties and the actions we recommend can correct most problems, but not all of them. For more information on troubleshooting, contact our Customer Service Department.
5.2 Parts Replacement
Printed circuit boards (PCBs), major parts and components in the monitor are replaceable.
Once you isolate a PCB you suspect defective, follow the instructions in chapter 6
Disassembly and Repair to replace the PCB with a known good one and check that the
trouble disappears or the equipment passes all performance tests. Defective PCB can be sent to us for repair. If the trouble remains, exchange the replacement PCB with the original suspicious PCB and continue troubleshooting as directed in this chapter.
To obtain information on replacement parts or order them, refer to chapter 7 Parts.
5.3 Troubleshooting Guide
5.3.1 Power On/Off Failure
Symptoms
The monitor fails to start.
Possible Cause
AC mains not connected or battery too low
Cable defective
Troubleshooting
Check that AC mains is properly connected or battery capacity is sufficient.
1. Check that the cable between the keypad board and main board is correctly connected.
2. Check that the cable between the power board and power management board is correctly connected.
3. Check that the cable between the main board and power management board is correctly connected.
Replace the power board. Power board defective
Power management board defective
The main board failed.
Replace the power management board.
Replace the main board.
5-1
5.3.2 Display Failures
Symptoms
The display is blank or black.
Images overlapped or distorted
Possible Cause
Cable defective
Troubleshooting
1. Check if the cable between the display and main board and the backlight cable are correctly connected.
2. Check that the cables and connectors are not damaged.
Main board defective Replace the main board.
Display defective Replace the display.
Main board error
Cable defective
Replace the main board, or upgrade the main board with the upgrade software.
Check if the cable between the display and main board and the backlight cable are correctly connected.
5.3.3 Button Failures
Symptoms Possible Cause
Buttons do not work
Cable defective
Keypad board failure
5.3.4 Battery Failures
Troubleshooting
Check that the cable between the keypad board and main board is correctly connected.
Replace the keypad board.
Symptoms Possible Cause
Battery defective
Cable defective
Troubleshooting
Replace the battery.
Check that the cable between the battery interface board and power management board is correctly connected.
Battery cannot be charged
Power management board defective
Battery interface board defective
Replace the power management board.
Replace the battery interface board.
NOTE
z z
When the battery module has a failure, it may cause problems to other components. In this case, troubleshoot the battery module per the procedure described in the table above.
Components of the main unit are powered by the power module. In the event that a component malfunctions, check if the operating voltage is correct.
5-2
5.3.5 Module defective
Symptoms
Failed to load modules
Possible Cause
Module defective
Main unit defective
Module loading succeeds but parameters do not function
Cable defective inside the module
Parameter module defective
Converter board defective inside the module
5.3.6 Software Upgrade Problems
Troubleshooting
1. Check that the cable between the external converter board inside the module and the converter board is correctly connected.
2. Replace the converter board.
1. Check that the cable between the main board and power management board is correctly connected.
2. Replace the power management board.
3. Replace the main board.
Check the cables connecting the converter board and corresponding parameter module.
Replace the corresponding module.
Replace corresponding converter board.
Symptoms
Boot file upgrade fails
Possible Cause
Power failure or unintended power off during boot file upgrade
Incorrect network connection
Troubleshooting
Replace the main board.
Program upgrade fails
Incorrect upgrade or unmatched program package
Check if the monitor is correctly connected with the PC.
Select the program to be upgraded and corresponding software, and then perform
upgrade as described in 8.2 Software
Battery abnormal after upgrading the power management program
5.4 Error codes
Fails to power cycle the monitor after upgrading the power management program
Upgrade the power management software again and then power cycle the monitor.
Error codes are displayed on the monitor if a failure is detected. For detailed failure description, cause and solutions, please refer to Appendix D Error codes in the Operator's
Manual.
5-3
FOR YOUR NOTES
5-4
6
Disassembly and Repair
6.1 Tools Required
To disassemble and replace the parts and components, the following tools may be required:
Philips screwdrivers
Tweezers
Sharp nose pliers
Clamp
6.2 Preparations for Disassembly
Before disassembling the equipment, finish the following preparations:
Stop monitoring, turn off the equipment, and disconnect all the accessories and peripheral devices.
Disconnect the AC power source and remove the battery. z z z z z z z z z
WARNING
Before disassembling the equipment, be sure to eliminate the static charges first.
When disassembling the parts labeled with static-sensitive symbols, make sure you are wearing electrostatic discharge protection such as antistatic wristband or gloves to avoid damaging the equipment.
Properly connect and route the cables and wires when reassembling the equipment to avoid short circuit.
Select appropriate screws to assemble the equipment. If unfit screws are tightened by force, the equipment may be damaged and the screws or part may fall off during use, causing unpredictable equipment damage or human injury.
Follow correct sequence to disassembly the equipment. Otherwise, the equipment may be damaged permanently.
Be sure to disconnect all the cables before disassembling any parts. Be sure not to damage any cables or connectors.
Be sure to place removed screws and disassembled parts properly, preventing them from being lost or contaminated.
Place the screws and parts from the same module together to facilitate reassembling.
To reassemble the equipment, first assemble the assemblies, and then the main unit. Carefully route the cables.
Make sure that the waterproof material is properly applied during reassembling.
6-1
6.3 Disassembling the Main Unit
NOTE
z z z
To disassemble the equipment, place the equipment on a work surface free from foreign material, avoiding damaging the screen.
All the operations should be performed by qualified service personnel only. Make sure to put on the insulating gloves during service operations.
Operations relating to optional parts may not apply to your equipment.
6.3.1 Disassembling the Temp Module (Optional)
Lay the monitor on a table as shown below. Unscrew the two M3×6 screws, pull the Temp module up, and disconnect the Temp cable.
6.3.2 Separating the Front and Rear Half of the Monitor
1. Lay the monitor on a table as shown below. Unscrew the four M3 screws.
6-2
2. Stand the monitor and separate the front housing assembly and rear housing assembly with caution. Disconnect the cable between the main board and power management board and then take off the front panel.
NOTE
z
When reassembling the equipment, be sure to check if the front housing waterproof strip is correctly placed.
6.3.3 Removing the Parameter Connector Panel Assembly
Lay the rear housing assembly on the table, disconnect the SpO
2
cable and connector panel connecting tube, and then take out the parameter connector panel.
SpO
2 signal cable
Silicone tube
Parameter connector panel assembly
6-3
6.3.4 Disassembling the Main Bracket Assembly
Unscrew the four PT3×8 screws as indicated below. Then take out the main bracket assembly.
4 self-tapping screws
6-4
6.3.5 Removing the Parameter Board (SpO
2
Optional) and Power
Management Board
1. Unscrew the two M3×6 screws and two external hexagon screws, and take the power management board assembly out from the main bracket assembly.
2 M3 screws
2 external hexagon screws
2. Unscrew the two M3×4 screws and take the parameter board out from the power management board assembly.
2 M3 screws
Parameter Board
Power management board
3. Unscrew the two M3×6 screws and take out the power management board assembly.
2 M3 screws
6-5
6.3.6 Disassembling Pumps and Valves (NIBP optional)
1. Cut the two cable ties and take out the gas pump.
2. Unscrew the two M3×6 screws as indicated and take out the valve.
Cable tie
2 M3 screws
6.3.7 Disassembling AC/DC Power Board and Battery Converter Board
1. Unscrew the four M3×6 screws as indicated and take out the AC/DC power board.
6-6
2. Unscrew the two M3 nuts to take out the battery interface board.
2 M3 screws
6.4 Disassembling the Front Housing Assembly
NOTE
z z z
To disassemble the equipment, place the equipment on a work surface free from foreign material, avoiding damaging the screen.
Remember to install the screen support pad properly during reassembly.
Operations relating to optional parts may not apply to your equipment.
6.4.1 Removing the Main Board
Disconnect the cable between the main board and keypad board. Unscrew the four M3×6 screws and take out the main board, as shown below:
4 M3 screws
6-7
6.4.2 Removing the Display
Unscrew the four M3×8 screws as indicated below. Take out the display assembly. Then unscrew the four PT2×6 and take out the display.
4 M3 screws
4 PT2 screws
Display
6.4.3 Removing the Keypad
Unscrew the Two PT3×8 screws indicated below and take out the keypad.
Keypad
6-8
6.5 Disassembling the Temp Module (Optional)
6.5.1 Removing the Temp Module PCBA and Temp Module Power
Board PCBA
Unscrew the 2 M3 screws indicated below and take out the metal sheet. Disconnect the
Temp board cable and the cable between Temp isolation power board and Temp board.
Unscrew the four M3×6 screws, you can take out the Temp module PCBA. Then unscrew the three M3×6 screws, you can take out the Temp module power board PCBA.
Cable between the isolation power board and Temp board
Screw for metal sheet
Metal sheet
3 screws
Temp board cable
4 screws
Temp module power board PCBA
Temp module PCBA
6.5.2 Disassembling the Temp On-Position Detection Board PCBA
1. Unscrew the four M3×6 screws as indicated and take out the temp module housing.
4 screws
6-9
2. Unscrew the four M2 screws as indicated below and take out the Temp on-position detection board PCBA.
4 screws
Temp on-position detection board PCBA
NOTE
z
Remember to assemble the silicon button for the Temp on-position detection switch during reassembly.
6-10
7
Parts
7.1 Introduction
This section contains the exploded views and parts lists of the main unit. It helps the engineer to identify the parts during disassembling the monitor and replacing the parts. This manual is based on the maximum configuration. Your equipment may not have same parts and the quantity of the screws or stacking sleeves etc. may be different with those included in the parts lists.
NOTE
z
The part number listed in the Parts List is only for checking the FRU part number which is also included in the Parts List. Please provide the FRU parts number if you want to purchase the spare parts.
7.2 Main Unit
7.2.1 Exploded View
15
14
7-1
7.2.2 Parts List
SN PN
1 /
Description FRU part number
Rear housing for VS-600 115-018253-00
Remarks
/
Parameter connector
VS-600
115-017686-00 with no SpO
2
3 /
4
Power management board assembly for
VS-600
115-017679-00 NIBP valve assembly
5 /
6 /
Screw, head
051-001458-00 Mindray/Nellcor
051-001360-00 Masimo
115-017679-00
/
/
/
/
/
7 /
8 /
Pump
Shock absorption cushion for pump
801-9261-00040-00 /
/ /
9 /
10 /
11 /
Front housing assembly for VS-600
Main bracket assembly for VS-600
115-018250-00
FOOT, / front cover FRU
/ /
/
/ / 12 /
13 /
Battery door assembly for VS-600
14 115-017687-00
Predictive Temp module for VS-600
15 /
Screw, pan head, Phillips
M3X8
Cable between NIBP
115-018252-00 /
115-017687-00 /
/ /
009-003238-00 / management board
Cable between the main
009-003248-00 / management board
7-2
7.3 Front Housing Assembly
7.3.1 Exploded View
7.3.2 Parts List
SN PN
1 /
2 /
Description
Waterproof strip for front and rear housing
Front housing for VS-600
FRU part number Remarks
115-018250-00 /
6
3
/
051-001358-00
4 /
5 /
7 /
8 /
Display lens for VS-600
Keypad PCBA for VS-600 051-001358-00 /
Keypad cushion 047-010363-00 /
Keypad board adjusting sleeve
043-003153-00
Short cushion
Long poron cushion 115-018251-00 /
9 /
10 /
Display metal sheet for
VS-600
/ /
7-3
SN PN
11 /
Description FRU part number
/
Remarks
/
12 /
13 /
14
Screw, pan head cross recessed M3X6
051-001363-00 Main board PCBA (VS-600)
/ /
/ /
051-001363-00 / buttons /
7.4 Main Bracket Assembly
7.4.1 Exploded View
7-4
7.4.2 Parts List
SN PN
1 /
2 /
3 /
4
5
/
0380-00-0593
6 /
7 /
8 /
Description
6301 battery interface
PCBA
Screw, Pan head w/washer
FRU part number
051-001460-00
Remarks
With cable
/ /
Nut with lock washer
Knob, Battery latch
/
/
0380-00-0593
/
/
/
/ /
Battery hook binder plate
/ /
Screw, / /
10 /
11 /
12
13
/ Grounding pole pad
047-010575-00 Power board shield
009-003241-00 /
/
/
/
047-010575-00
022-000125-00
047-010364-00
/
/
/
/
/ 15 047-010364-00 Power board insulator
16 /
17 /
Battery compartment support
Spring
Cable between the board and power board
/
/ /
009-003237-00 /
7-5
7.5 Power Management Board Assembly
7.5.1 Exploded View
7.5.2 Parts List
SN PN Description
1 /
2 /
3 /
4 /
5 /
6 /
FRU part number
PCBA, Power management/interface board
051-001458-00
051-001360-00
Power management board bracket
Spring
/
/
047-010576-00
115-018383-00
0671-00-0102-01
040-001149-00
/
Remarks
Power management board service kit
(without Masimo receptacle)
Power management board service kit (with
Masimo receptacle)
/
/
/
SpO2 board service kit,
9008 V2.0
Nellcor SpO
2
board
(MDU)
SpO2 board, Masimo
MS-2013
/
7-6
7.6 Parameter Connector Panel Assembly
7.6.1 Exploded View
7.6.2 Parts List
SN PN Description
3 /
FRU part number
NIBP gas nozzle assembly
115-017686-00
2 /
Remarks
VS-600 panel assembly(wo SpO2)
7-7
7.7 Predictive Temp Assembly
7.7.1 Exploded View
FRU part number
/
Remarks
/
801-6006-00043-00
7.7.2 Parts List
SN PN Description
1 / Screw, Pan head w/washer
2 M09A-30-62080
Predictive Temp module power board PCBA
3 / Temp module insulator / /
4 / /
Temp 043-003152-00
6 051-001419-00
Temp on-position detection board PCBA
7 / Chassis
/
/
051-001419-00 /
/ /
7-8
SN
9
PN
049-000547-00
Description
8 043-003312-00
External compartment for
Temp module (VS)
Temp cover for VS-600
11 051-001435-00
Predictive Temp module
PCBA
12 /
Screw, pan head cross recessed M2X6
13 /
14 /
Temp module support for
VS-600
Screw, Flat Head Phillips,
M3X8
15 /
Screw, pan head cross recessed M3X6
/ 009-003368-00
VS-900 predictive Temp board cable
VS-900 Cable between the
/ 009-003239-00 Temp module and power management board
VS-900 Cable between the
/ 009-003240-00 isolation power board and
Temp board
FRU part number Remarks
043-003312-00 /
049-000547-00
M09A-20-62064
/
/
051-001435-00 /
/ /
/ /
/ /
/ /
009-003368-00 /
009-003239-00 /
009-003240-00 /
7-9
FOR YOUR NOTES
7-10
8
Hardware and Software Upgrade
8.1 Hardware Upgrade
The vital signs monitor supports upgrade of NIBP, SpO
2
and Temp functions.
8.1.1 Upgrade Package
Upgrade package Description of upgrade package
SpO
2
PN of upgrade package
VS-600 Mindray SpO
2
upgrade kit 115-018265-00
VS-600 Masimo SpO
2
upgrade kit 115-018266-00
VS-600 Nellcor SpO
2
upgrade kit 115-018267-00
Remarks
/
/
/
Note: measurement accessories are not included in the above upgrade packages.
8.1.2 Upgrading Parameter Modules
8.1.2.1
Upgrading Mindray SpO
2
and Nellcor SpO
2
List of upgrade package:
A Mindray SpO
2
board or Nellcor SpO
2
board; and,
A connector panel assembly of the same SpO
2
board.
1. Disassemble the power management board and parameter connector panel assembly
as described in 6.3 Disassembling the Main Unit.
2. Remove the SpO
2
board from the disassembled power management board assembly as
described in 6.3.5Removing the Parameter Board (SpO2 Optional) and Power
Management Board, and assemble the SpO
2
board in the upgrade kit.
3. Install the power management board assembly with the SpO
2
board and the connector
panel assembly in the service kit into the main unit as described in 6.3 Disassembling
8.1.2.2
Upgrading Masimo SpO
2
List of upgrade package:
A Power Management Board Assembly; and,
A parameter connector panel assembly.
8-1
1. Remove the power management board assembly and connector panel assembly as
described in 6.3 Disassembling the Main Unit.
2. Install the power management board assembly and the connector panel assembly in
the service kit into the main unit as described in 6.3 Disassembling the Main Unit.
8.1.3 Upgrading Temp
List of upgrade package:
A Temp module with cables; and,
Two M3×6 screws.
Remove the decorative cover from the Temp module connector. Install the Temp module
onto the main unit as described in 6.5 Disassembling the Temp Module (Optional).
8.1.4 Enabling Parameter Functions
1. Turn on the monitor. Within 10 s after you hear a beep, press and hold and
keys simultaneously, and the system starts to identify the currently configured modules.
The labels of parameters start to flash till the end of module identification. Then the results are displayed in corresponding parameter areas,
NIBP and Temp parameter areas: equipment" while
means "this module is configured on this
means the contrary.
SpO
2
parameter area: Number “1” means MindraySpO
2
module, ”2” means
MindraySpO
2
module, “3” means NellcorSpO
2
module.
PR parameter area: while
means "SpO
means the contrary.
2
module is configured on this equipment"
2. Restart the monitor.
8-2
8.2 Software Upgrade
A download tool is adopted for the upgrade of 6011 products, i.e. Parameter Module
Upgrade and Download tool (PN: G-0010-30-43088).
Upgradeable Download Software for VS-600
No.
1
2
3
4
5
PN
110-002528-00
110-002525-00
110-000889-00
110-001842-00
110-002595-00
Description
Main control function program VS600
Power management program
NIBP module software (LPC2136)
Software for Mindray SpO
2
module
TEMP module software (New Vital signs) z z z
CAUTION
Disconnect the equipment from the patient.
Do not shut down or power off the equipment during upgrade. Otherwise, it may cause the equipment to break down.
Software upgrade should be performed by qualified service personnel only.
8.2.1 Upgrade program installation
1. Run the installation file “setup.exe” on your PC.
3. Enter “User name” “Company” and correct CD-KEY” (36729683225), and then click
“Next”.
4. Select the path and click “Next”.
5. Click “Finish” to finish the installation.
8.2.2 Upgrading software
1. Connect PC with monitor’s RS232 port with standard serial port extentd cable, and remember the COM comber, such as COM1.
2. Run the upgrade program on your PC through click “Start” → “All Programs” →
“ Mindray icare upgrade program” → “icare”.
8-3
3. Choose “VS-600” from the poped-up menu.
4. Click “ok” and then enter “Password” (8593210) in the poped-up menu.
8-4
5. Click “ok” , “VS-600 Update Tool” menu pops up.
6. Click “Select Package” and choose “Path” from the poped-up menu by clcik “ ”.
注意 z z
Upgrade package shall be .pkg files. Select package according to system requirement.
The package files are made and supplied by our company. You do not need to make package by yourself.
8-5
4. Click “Yes” to finsih the package selection. The below figure displays.
5. Set “Port” to “COM1”. And then click “Start”.
Start connection......
C
、
6. Make sure the monitor is power off, press and hold three buttons and
firstly, and then press button at the same time, after about 2 seconds, release the three buttons, the monitor enters upgrade mode and starts software upgrade automatically, the display screen is black while the indocator built in button lights green.
The corresponding prompt messages are displayed on PC. When software upgrade is finished, prompt “Update succed” displays. Restart the monitor and check if the software is correctly upgrade.
8-6
A
Electrical Safety Inspection
The following electrical safety tests are recommended as part of a comprehensive preventive maintenance program. They are a proven means of detecting abnormalities that, if undetected, could prove dangerous to either the patient or the operator. Additional tests may be required according to local regulations.
All tests can be performed using commercially available safety analyzer test equipment.
These procedures assume the use of a 601PROXL International Safety Analyzer or equivalent safety analyzer. Other popular testers complying with IEC 60601-1 used in Europe such as
Fluke, Metron, or Gerb may require modifications to the procedure. Follow the instructions of the analyzer manufacturer. he electrical safety inspection should be periodically performed every two years .The safety analyzer also proves to be an excellent troubleshooting tool to detect abnormalities of line voltage and grounding, as well as total current loads.
A.1 Power Cord Plug
A.1.1 The Power Plug
Test Item
The power plug pins
The plug body
The power plug
The strain relief
The power plug
The power cord
Acceptance Criteria
No broken or bent pin. No discolored pins.
No physical damage to the plug body.
No physical damage to the strain relief. No plug warmth for device in use.
No loose connections.
No physical damage to the cord. No deterioration to the cord.
For devices with detachable power cords, inspect the connection at the device.
For devices with non-detachable power cords, inspect the strain relief at the device.
A-1
A.2 Device Enclosure and Accessories
A.2.1 Visual Inspection
Test Item
The enclosure and accessories
Acceptance Criteria
No physical damage to the enclosure and accessories.
No physical damage to meters, switches, connectors, etc.
No residue of fluid spillage (e.g., water, coffee, chemicals, etc.).
No loose or missing parts (e.g., knobs, dials, terminals, etc.).
A.2.2 Contextual Inspection
Test Item
The enclosure and accessories
Acceptance Criteria
No unusual noises (e.g., a rattle inside the case).
No unusual smells (e.g., burning or smoky smells, particularly from ventilation holes).
No taped notes that may suggest device deficiencies or operator concerns.
A.3 Device Labeling
Check the labels provided by the manufacturer or the healthcare facility are present and legible.
Main unit label
Integrated warning labels
A.4 Protective Earth Resistance
Protective Earth Resistance is measured using the RED test lead attached to the DUT
Protective Earth terminal or enclosure. Select the test current by pressing SOFT KEY 3 to toggle between 1AMP, 10AMP, and 25AMP. The front panel outlet power is turned off for this test.
The following conditions apply: L1 and L2 Open.
A-2
Preparation
1. First select the test current that will be used for performing the Protective Earth
Resistance test by pressing AMPERES (SOFT KEY 3).
2. Connect the test lead(s) between the RED input jack and the GREEN input jack.
3. Press CAL LEADS. The 601PRO will measure the lead resistance, and if less than 0.150
Ohms, it will store the reading and subtract it from all earth resistance readings taken at the calibrated current.
If the calibration fails, the previously stored readings will be used until a passing calibration has occurred.
WARNING
z
During Earth Resistance testing, the DUT must be plugged into the 601PRO front outlet. If the DUT fails Earth Resistance, discontinue tests and label the device defective.
To Perform the Test
1. From the MAIN MENU, or with the outlet unpowered, plug the DUT into the 601PRO front panel outlet.
2. Attach the 601PRO RED input lead to the device’s Protective Earth terminal or an exposed metal area.
3. Press shortcut key 3. The Protective Earth Resistance test is displayed.
4. Press SOFT KEY 3 to select a test current (1AMP, 10AMP, or 25AMP). The selected test current is displayed in the upper right corner of the display.
5. Press START TEST to start the test. The test current is applied while resistance and current readings are taken. This takes approximately 5 seconds.
6. Press the print data key at any time to generate a printout of the latest measurement(s).
A-3
NOTE
z
When "Over" is displayed for Ohms, this signifies that a valid measurement was not obtained because either an open connection was detected or that the measurement was not within range. Readings greater than 9.999 Ohms will be displayed as Over.
In Case of Failure
Once it reaches the limitation, stop using and inform the Customer Service Engineer for analysis and disposal.
LIMITS
ALL COUNTRIES R = 0.2 Ω Maximum
A.5
Earth Leakage Test
Run an Earth Leakage test on the device being tested before performing any other leakage tests.
Leakage current is measured the following ways:
Earth Leakage Current, leakage current measured through DUT outlet Earth
Earth Leakage Current AP-EARTH (ALL Applied Parts connected to Earth), leakage current measured through DUT outlet Earth
There is no need to attach a test lead; the 601PRO automatically connects the measuring device internally.
To Perform the Test
1. From the MAIN MENU, or with the outlet unpowered, plug the DUT into the 601PRO front panel outlet, and turn on the device.
2. Attach the device's applied parts to the 601PRO applied part terminals if applicable.
3. Press shortcut key 4.The Earth Leakage test appears on the display, and the test begins immediately:
SOFT KEY 1 toggles the DUT outlet Polarity from Normal to Off to Reverse.
SOFT KEY 2 toggles the DUT outlet from Earth to No Earth.
SOFT KEY 3 toggles the DUT outlet from L2 to No L2.
A-4
SOFT KEY 4 toggles the AP to Earth to No AP to Earth.
4. Press the print data key at any time to generate a printout of the latest measurement.
In Case of Failure
Check any broken of the enclosure. Replace any defective part.
Inspect wiring for bad crimps, poor connections, or damage.
Test the wall outlet; verify it is grounded and is free of other wiring abnormalities. Notify the user or owner to correct any deviations. As a work around, check the other outlets to see if they could be used instead.
Change another probe to confirm if the fail is caused by console.
If the leakage current measurement tests fail on a new unit and if situation can not be corrected, submit a Safety Failure Report to document the system problem. Remove unit from operation.
If all else fails, stop using and inform the Customer Service Engineer for analysis and disposal.
LIMITS
For UL60601-1,
300 μA in Normal Condition
1000 μA in Single Fault Condition
For IEC60601-1,
500 μA in Normal Condition
1000 μA in Single Fault Condition
A.6 Patient Leakage Current
Patient leakage currents are measured between a selected applied part and mains earth. All measurements have a true RMS only response.
Preparation
Perform a calibration from the Mains on Applied Part menu.
The following outlet conditions apply when performing this test:
Normal Polarity, Earth Open, Outlet ON Normal Polarity, Outlet ON
Normal Polarity, L2 Open, Outlet ON Reversed Polarity, Outlet ON
Reversed Polarity, Earth Open, Outlet ON Reversed Polarity, L2 Open, Outlet ON
A-5
WARNING
z
If all of the applied parts correspond to the instrument type, the applied parts will be tied together and one reading will be taken. If any of the applied parts differ from the instrument type, all applied parts will be tested individually, based on the type of applied part. This applies to Auto and Step modes only.
To Perform the Test
1. From the MAIN MENU, or with the outlet unpowered, plug the DUT into the 601PRO front panel outlet, and turn on the device.
2. Attach the applied parts to the 601PRO's applied part terminals.
3. Press shortcut key 6. The Patient Leakage test is displayed, and the test begins immediately.
4. Press APPLIED PART (SOFT KEY 4) at any time to select the desired applied part leakage current.
5. Modify the configuration of the front panel outlet by pressing the appropriate SOFT
KEY on the 601PRO.
6. Press the print data key at any time to generate a printout of the latest measurement.
In Case of Failure
Check any broken of the enclosure. Replace any defective part.
Inspect wiring for bad crimps, poor connections, or damage.
Test the wall outlet; verify it is grounded and is free of other wiring abnormalities. Notify the user or owner to correct any deviations. As a work around, check the other outlets to see if they could be used instead.
Change another probe to confirm if the fail is caused by console.
If the leakage current measurement tests fail on a new unit and if situation can not be corrected, submit a Safety Failure Report to document the system problem. Remove unit from operation.
If all else fails, stop using and inform the Customer Service Engineer for analysis and disposal.
LIMITS
For CF
applied parts
10μA in Normal Condition
50μA in Single Fault Condition
A-6
For BF
applied parts
100μA in Normal Condition
500μA in Single Fault Condition
A.7 Mains on Applied Part Leakage
The Mains on Applied Part test applies a test voltage, which is 110% of the mains voltage, through a limiting resistance, to selected applied part terminals. Current measurements are then taken between the selected applied part and earth. Measurements are taken with the test voltage (110% of mains) to applied parts in the normal and reverse polarity conditions as indicated on the display.
The following outlet conditions apply when performing the Mains on Applied Part test.
Normal Polarity;
Reversed Polarity
Preparation
To perform a calibration from the Mains on Applied Part test, press CAL (SOFT KEY 2).
1. Disconnect ALL patient leads, test leads, and DUT outlet connections.
2. Press CAL to begin calibration, as shown:
If the calibration fails, the previously stored readings will be used until a passing calibration has occurred. Also, the esc/stop key has no effect during calibration.
3. When the calibration is finished, the Mains on Applied Part test will reappear.
WARNING
z z
A 2-beep-per-second signal indicates high voltage present at the applied part terminals while a calibration is being performed.
High voltage is present at applied part terminals while measurements are being taken.
A-7
To Perform the Test
1. From the MAIN MENU, or with the outlet unpowered, plug the DUT into the 601
2. Attach the applied parts to the 601PRO applied part terminals.
3. Attach the red terminal lead to a conductive part on the DUT enclosure.
4. Press shortcut key 7. The Mains on Applied Part test is displayed.
5. Select the desired outlet configuration and applied part to test using the appropriate
SOFT KEYS:
6. Press START TEST (SOFT KEY 1) to begin the test.
7. Press the print data key to generate a printout of the latest measurement. z
NOTE
If all of the applied parts correspond to the instrument type, the applied parts will be tied together and one reading will be taken. If any of the applied parts differ from the instrument type, all applied parts will be tested individually, based on the type of applied part. This applies to Auto and Step modes only.
In Case of Failure
Check any broken of the enclosure. Replace any defective part.
Inspect wiring for bad crimps, poor connections, or damage.
Test the wall outlet; verify it is grounded and is free of other wiring abnormalities. Notify the user or owner to correct any deviations. As a work around, check the other outlets to see if they could be used instead.
Change another probe to confirm if the fail is caused by console.
If the leakage current measurement tests fail on a new unit and if situation can not be corrected, submit a Safety Failure Report to document the system problem. Remove unit from operation.
If all else fails, stop using and inform the Customer Service Engineer for analysis and disposal.
LIMITS
For CF
For BF
applied parts: 50 μA
applied parts: 5000 μA
A-8
ELECTRICAL SAFETY INSPECTION FORM
Overall assessment
Scheduled inspection
Unopened repair type
Opened repair type, not replace the power part including transformer or patient circuit board
Test item: 1, 2, 3, 4, 5, 6, 7
Test item: 1, 2, 3
Test item: 1, 2, 3, 4
Opened repair type, replace the power part including transformer Test item: 1, 2, 3, 4, 5
Opened repair type, replace patient circuit board Test item: 1, 2, 3, 4, 6, 7
Location: Technician:
Manufacturer: Model: SN:
Measurement equipment /SN: Date of Calibration:
INSPECTION AND TESTING
1
2
4
5
6
7
Power Cord Plug
Device Enclosure and Accessories
Protective Earth Resistance
Normal
Earth
Leakage
Patient
Leakage
Current condition(NC)
Single Fault condition(SFC)
Normal condition(NC)
Single Fault condition(SFC)
Mains on Applied Part Leakage
Ω
____μA
____μA
□BF____μA
□CF____μA
□BF____μA
□CF____μA
□BF____μA
□CF____μA
Pass/Fail Limit
Max 0.2 Ω
Max:
NC: 300μA(refer to
UL60601-1) *
NC: 500μA(refer to
IEC60601-1) *
SFC: 1000μA
Max:
CF applied part:
NC:10μA, SFC: 50μA
BF applied part:
NC:100μA, SFC: 500μA
Max:
CF applied part: 50μA
BF applied part:
5000μA
Note: The equipment which sell to America shall comply with the requirement of UL60601-1, others shall comply with the requirement of IEC60601-1.
Name/ Signature: __________________________ Date:_____________________________
A-9
FOR YOUR NOTES
A-10
PN: 046-004927-00 (1.0)

Public link updated
The public link to your chat has been updated.
Advertisement
Key features
- Compact and portable design
- Spot-check monitoring of SpO2, PR, NIBP and TEMP.
- Adult, pediatric and neonatal patient modes
- Clear and accurate readings
- Easy to use interface