China World Technology Medical Equipment Service Group
|Minimum Order Quantity:||1pcs|
|Delivery Time:||3-5 working days|
|Payment Terms:||T/T(wire transfer), Western Union, Paypal|
|Product Name:||Replacement GE MAC400 C3 MAC600 ECG Machine CameronSino Battery CS-GMC400MD 2047357-001 2030912-001||Brand:||GE|
|Model No.:||CS-GMC400MD||Part No.:||2047357-001 ,2030912-001|
|Rating:||7.4VDC=2200 Ah/16.2 Wh||Battery Cell:||Lithium Ion|
|WH:||16.28 Wh||Dimensions:||72.00 X 40.00 X 22.00mm|
|Weight:||150g / 5.29oz|
MAC600 ECG Replacement Parts,
2030912-001 ECG Replacement Parts,
2047357-001 Cameronsino Battery
Replacement GE MAC400 C3 MAC600 ECG Machine CameronSino Battery CS-GMC400MD 2047357-001 2030912-001
|Part No||2047357-001 ,2030912-001|
|Rating||7.4VDC=2200 Ah/16.2 Wh|
|Battery Cell||Lithium Ion|
|Dimensions||72.00 x 40.00 x 22.00mm|
|Weight||150g / 5.29oz|
GE MAC 400 battery
GE MAC 600 battery
GE MAC C3 battery
Compatible Battery Part Number:
How to place the battery
Note: Most Nihon Kohden and Ge medical devices need to be reconfigured after battery replacement. The battery data must be erased or reset; otherwise, your machine will issue an error warning. This does not mean that the battery is bad. Set up your machine and continue to use the battery.
How to Storage the battery
Among all environmental factors, temperature has the greatest impact on the battery's charging and discharging functions. The electrochemical response of the electrode/electrolyte interface is related to the ambient temperature, and the electrode/electrolyte interface is regarded as the heart of the battery. If the temperature decreases, the electrode response rate will also decrease. Assuming that the battery voltage remains stable and the discharge current decreases, the power output of the battery will also decrease.
If the temperature increases, the opposite is true, that is, the output power of the battery will increase, and the temperature will also affect the transfer speed of the electrolyte. If the temperature rises, it will accelerate, the transmission temperature will drop slowly, and the battery's charging and discharging functions will also be affected. But if the temperature is too high, over 45, it will destroy the chemical balance in the battery and cause side reactions. What are the control methods for overcharged gas? In order to prevent the battery from overcharging, it is necessary to control the charging terminal. When the battery is fully charged, some special information can be used to determine whether the charging has ended. Generally speaking, there are six ways to prevent the battery from being overcharged: Charging
1. Peak voltage control: Determine the end of charging by detecting the peak voltage of the battery;
2.dT/dt control: judge the end of charging by detecting the rate of change of the peak temperature of the battery;
3. The difference between the temperature and the ambient temperature when the battery is charged will reach the maximum;
4.-V control: When the battery power reaches the peak voltage, the voltage will drop by a certain value
5. Timing control: control the end of charging by setting a certain charging time, generally set the time required to charge 130% of the nominal capacity;
6. TCO control: Taking into account the safety and characteristics of the battery, high temperature charging should be prevented (except for high temperature batteries), so when the battery temperature rises by 60, the charging should be stopped.
Li-ion batteries need to be fully charged and stored. It can be stored for more than half a year under 20, indicating that the lithium iron PhilipiliposPhilipilipate battery is suitable for low-temperature storage. Some people suggest storing rechargeable batteries in the refrigerator, which is indeed a good idea. The self-discharge of lithium primary batteries is very low and can be stored for 3 years, and the effect of cold storage will be better. It is a good idea to store lithium primary batteries in a cold place.
Lithium-ion batteries have self-discharge. Long-term storage will cause excessive discharge of the battery, destroy the internal structure of the battery, and shorten the battery life. Therefore, long-term storage of lithium-ion batteries should be charged once every 3 to 6 months, that is, charging to a voltage of 3.8 to 3.9V is appropriate
The higher the storage temperature, the more saturated the battery, and the more serious the capacity loss. Therefore, long-term storage of lithium batteries is not recommended. If the user has an idle battery in his hand, the storage conditions recommended by experts are 40% charge level and storage temperature below 15 degrees or lower. Lithium iron PhilipiliposPhilipilipate batteries can be used in a wide temperature range. It can still be used outdoors in winter in the north, but the capacity will be much reduced. If it returns to room temperature, its capacity can be restored again.
Contact Person: Andy