ᱤᱧ ᱪᱮᱫ ᱤᱧ ᱦᱚᱨᱚᱜ ᱮᱫᱟ?

Nov 19, 2025

ᱢᱤᱫ ᱱᱟᱶᱟ ᱚᱱᱚᱞ

ᱯᱮᱨᱤᱯᱷᱮᱨᱟᱞ ᱵᱷᱮᱞᱭᱩ

 

20 millions lạgit̕ lạgit̕ jạruṛaḱ kạmi lạgit̕ lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kana kạmi lạgit̕ kana lạgit̕ kana lạgit̕ kana kạmi lạgit̕, ᱟᱹᱰᱤ ᱠᱚᱢ ᱫᱟᱲᱮ, ᱫᱟᱲᱮ, ᱫᱟᱲᱮ ᱟᱨ ᱫᱟᱲᱮ ᱠᱚ ᱥᱟᱶᱛᱮ, ᱱᱚᱶᱟ ᱫᱚ ᱟᱹᱰᱤ ᱵᱮᱥ ᱜᱮᱭᱟ. ᱟᱹᱰᱤ ᱜᱟᱱ ᱵᱚᱨᱰ ᱠᱚ ᱫᱚ ᱢᱟᱲᱟᱝ ᱨᱮ ᱵᱮᱱᱟᱣ ᱟᱠᱟᱱ ᱡᱤᱱᱤᱥ ᱠᱚ ᱨᱮᱭᱟᱜ ᱵᱮᱵᱷᱟᱨ ᱠᱚ ᱩᱫᱩᱜ ᱟᱠᱟᱫᱟ᱾ ᱱᱚᱶᱟ ᱵᱚᱫᱚᱞ ᱠᱚ ᱫᱚ ᱠᱟᱨᱴᱨᱤᱡᱽ ᱰᱤᱡᱟᱭᱤᱱ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱡᱚᱥ ᱠᱟᱱᱟ, ᱡᱟᱦᱟᱸ ᱫᱚ ᱠᱟᱨᱴᱨᱤᱡᱽ ᱨᱮᱭᱟᱜ ᱠᱟᱨᱟᱱᱥᱤ ᱨᱮᱭᱟᱜ ᱫᱟᱲᱮ ᱫᱚ ᱵᱟᱝ ᱵᱮᱥ ᱞᱮᱠᱟ ᱛᱮ ᱵᱮᱱᱟᱣ ᱠᱟᱱᱟ᱾

 

ᱯᱞᱟᱡᱽᱢᱟ ᱜᱨᱟᱢ ᱠᱚ

 

ᱠᱟᱨᱴᱨᱤᱡᱽ ᱫᱚ 1 kg ko ko ko ke kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kana, , 3 k, k, ᱟᱨ extion ke kạmi lạgit̕ kạmi ᱠᱟᱱᱟ᱾ ᱰᱤᱴᱮᱠᱥᱚᱱ ᱫᱚ ᱜᱞᱩᱠᱚᱡᱽ, ᱟᱨ ᱜᱞᱩᱠᱚᱡᱽ, ᱟᱨ ᱮᱱᱴᱤᱵᱚᱰᱤᱡᱽ ᱟᱨ ᱮᱱᱴᱤᱵᱚᱰᱤᱡᱽ ᱟᱨ ᱜᱞᱩᱠᱚᱡᱽ ᱨᱮ ᱵᱚᱫᱚᱞ ᱟᱨ ᱜᱞᱩᱠᱚᱡᱽ ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱟᱛᱮ ᱟᱨ ᱵᱟᱝ ᱠᱟᱹᱢᱤ ᱠᱚ ᱠᱚᱢ ᱞᱟᱹᱜᱤᱫ ᱠᱟᱱᱟ᱾ ᱱᱚᱣᱟ ᱫᱚ ᱢᱟᱨᱟᱝ ᱵᱮᱴᱟᱨᱤ ᱛᱮ ᱪᱟᱹᱞᱩᱜ ᱠᱟᱱᱟ, ᱟᱨ ᱵᱟᱝ ᱢᱩᱪᱟᱹᱫᱚᱜ ᱠᱟᱱᱟ ᱟᱨ ᱵᱟᱝ ᱠᱷᱟᱱ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱟᱨ ᱵᱟᱝ ᱠᱷᱟᱱ ᱵᱷᱟᱞᱵᱷ ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱟᱛᱮ ᱟᱨ ᱵᱟᱝ ᱢᱩᱪᱟᱹᱫᱚᱜ ᱠᱟᱱᱟ ᱾ ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱫᱚ ᱚᱠᱛᱚ ᱚᱠᱛᱚ ᱨᱮ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱵᱚᱫᱚᱞ ᱟᱠᱟᱱᱟ, ᱟᱨ ᱚᱱᱟ ᱨᱮᱭᱟᱜ ᱯᱷᱚᱞᱳᱱ ᱫᱚ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱨᱩᱠᱷᱤᱭᱟᱹ ᱟᱨ ᱵᱟᱝ ᱵᱮᱥ ᱞᱮᱠᱟ ᱛᱮ ᱵᱟᱹᱲᱤᱡᱚᱜ ᱠᱟᱱᱟ᱾

ᱠᱟᱨᱴᱨᱤᱡᱽ ᱟᱨ ᱵᱮᱴᱟᱨᱤ, ᱵᱮᱴᱟᱨᱤ, ᱫᱟᱲᱮ ᱟᱨ ᱠᱷᱚᱨᱚᱪ ᱫᱚ ᱵᱟᱝ ᱦᱩᱭᱩᱜ ᱠᱟᱱᱟ, ᱢᱮᱱᱠᱷᱟᱱ ᱵᱟᱹᱲᱛᱤ ᱠᱷᱚᱨᱚᱪ ᱫᱚ ᱵᱟᱝ ᱵᱚᱫᱚᱞ ᱫᱟᱲᱮᱭᱟᱜ-ᱟ᱾

 

Since lithium-ion batteries rely primarily on the reciprocating movement of lithium ions in the cathode, anode, and electrolyte during charging and discharging, increasing the ion movement rate and diffusion coefficient is essential to achieve the goal of saving charging time and improving charging efficiency. ᱢᱤᱫ ᱵᱟᱝ ᱠᱷᱟᱱ ᱵᱮᱴᱟᱨᱤ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱦᱟᱹᱴᱤᱧ ᱦᱚᱸ ᱵᱟᱝ ᱛᱟᱦᱮᱱᱟ ᱢᱮᱱᱠᱷᱟᱱ ᱢᱤᱫ ᱜᱚᱱᱚᱝ ᱫᱚ ᱵᱟᱝ ᱛᱟᱦᱮᱱᱟ ᱟᱨ ᱵᱟᱝ ᱠᱷᱟᱱ ᱡᱟᱦᱟᱱ ᱨᱤᱢᱚᱴ ᱨᱮᱭᱟᱜ ᱡᱚᱥ ᱫᱚ ᱵᱟᱝ ᱦᱩᱭᱩᱜᱼᱟ᱾ ᱪᱤᱛᱟᱹᱨ 11.2 ᱨᱮ, ᱠᱚᱢ ᱜᱚᱱᱚᱝ ᱫᱚ ᱠᱚᱢ ᱜᱮᱭᱟ, ᱚᱱᱟ ᱫᱚ ᱯᱟᱣᱟᱨ ᱨᱮᱭᱟᱜ ᱜᱚᱱᱚᱝ ᱞᱮᱠᱟ ᱧᱮᱞᱚᱜ ᱠᱟᱱᱟ ᱾

 

ᱢᱮᱴᱨᱤᱠᱥ ᱫᱚ ᱢᱮᱴᱨᱤᱠᱥ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱜᱩᱱ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱢᱮᱴᱨᱤᱠᱥ ᱟᱨ ᱢᱮᱴᱨᱤᱠᱥ ᱨᱮᱭᱟᱜ ᱜᱩᱱ ᱠᱚ ᱩᱫᱩᱜ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱨᱮ α ᱟᱨ extime kạmi lạgit̕ gạhir kạmi lạgit̕ lạgit̕ gạḍi kạmi lạgit̕ kạmi kate . ᱧᱮᱞ ᱢᱮ (᱓) _________________________________________________________, ᱫᱟᱨᱮ ᱵᱮᱵᱷᱟᱨ ᱠᱟᱛᱮ ᱩᱨᱩᱢ ᱢᱮ ᱾

Figure 11-5 Pulse charging curve
 

11-3

α, ᱢᱮᱴᱨᱤᱠᱥ ᱫᱚ ΔL Δm l X line; ᱪᱤᱛᱟᱹᱨ ρ ᱫᱚ ᱮᱠᱥᱯᱚᱡᱟᱨ ᱨᱮᱭᱟᱜ ᱥᱚᱨᱥ ᱠᱟᱱᱟ; ᱚᱠᱛᱚ ᱫᱚ ᱰᱟᱭᱜᱽᱱᱚᱥᱴᱤᱠ ᱚᱠᱛᱚ ᱩᱫᱩᱜ ᱮᱫᱟᱭ; ᱟᱨ Δml ᱫᱚ Zn 1 } } log locode offimextions ᱠᱟᱱᱟ ᱾

 

ᱚᱠᱛᱚ ᱫᱚ ᱩᱫᱩᱜ ᱮᱫᱟᱭ ᱡᱮ Δs ᱫᱚ 50ms ᱨᱮ ᱩᱫᱩᱜ ᱟᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱚᱠᱛᱚ ᱚᱠᱛᱚ ᱨᱮ ᱱᱟᱹᱢᱩᱱᱟ ᱠᱚ ᱩᱫᱩᱜ ᱮᱫᱟᱭ:

 

1) The formation period of the SEI film (Solid Electrolyte Interphase), a process that consumes a portion of the available lithium ions to form the SEI film on the electrode surface.

 

2) At the end of each charging cycle, the resistance to the migration of lithium ions in the liquid phase inside the battery is relatively small, while the diffusion coefficient in the solid phase is relatively small. Therefore, if the charging current is too large at the end of the charging cycle, a large number of lithium ions will concentrate on the electrode surface, which can easily lead to the formation of lithium metal and reduce the lithium ion content.

 

ᱤᱧᱟᱜ ᱡᱤᱭᱚᱱ ᱨᱮ ᱢᱤᱫ ᱞᱮᱠᱟᱱ ᱮᱥᱮᱨ ᱢᱮᱱᱟᱜᱼᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱯᱷᱤᱞᱢ ᱨᱮᱭᱟᱜ ᱵᱮᱴᱟᱨᱤ ᱨᱮ ᱮᱥᱮᱨ ᱮᱢᱟᱭᱟ ᱾ If a good SEI film cannot be formed, although the battery may have high charge/discharge efficiency and usable capacity in the initial charge/discharge stages, the capacity will decrease sharply with increasing cycle count, especially in low-current pulse charging modes. ᱚᱱᱟᱛᱮ, 3.7 gpts ᱫᱚ ᱢᱤᱫ ᱱᱟᱹᱢᱩᱱᱟ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱱᱳᱰ ᱠᱚ ᱨᱮᱭᱟᱜ ᱮᱞ ᱩᱫᱩᱜ ᱮᱫᱟᱭ ᱾ ᱢᱮᱱᱠᱷᱟᱱ, ᱱᱚᱣᱟ ᱫᱚ ᱵᱟᱹᱲᱛᱤ ᱚᱠᱛᱚ ᱵᱟᱝ ᱛᱟᱦᱮᱱᱟ ᱡᱚᱠᱷᱚᱱ ᱠᱟᱨ ᱫᱚ ᱵᱟᱹᱲᱛᱤ ᱞᱟᱦᱟ ᱪᱟᱞᱟᱜ ᱠᱟᱱᱟ ᱾ Excessive current will cause uneven SEI film formation, rapid SEI film thickening, and a significant increase in resistance, reducing the number of usable ions and leading to capacity loss.

 

ᱯᱮᱨᱤᱯᱷᱮᱨᱟᱞ ᱥᱟᱨᱠᱤᱴ ᱫᱚ ᱢᱤᱫ ᱚᱠᱛᱚ ᱨᱮ ᱵᱮᱵᱷᱟᱨ ᱠᱟᱛᱮ ᱟᱨ ᱵᱟᱝ ᱵᱮᱵᱷᱟᱨ ᱠᱟᱛᱮ ᱟᱨ ᱵᱟᱝ ᱵᱮᱵᱷᱟᱨ ᱠᱟᱛᱮ ᱟᱨ ᱵᱟᱝ ᱯᱮᱨᱤᱢᱤᱴᱟᱨ ᱵᱚᱫᱚᱞ ᱠᱟᱛᱮ ᱾ ᱡᱤᱱᱤᱥ ᱠᱚ ᱫᱚ ᱵᱷᱮᱜᱟᱨ ᱵᱷᱮᱜᱟᱨ ᱡᱤᱱᱤᱥ, ᱟᱨ ᱮᱴᱟᱜ ᱞᱮᱠᱟᱱ, ᱟᱨ ᱚᱱᱟ ᱨᱮᱭᱟᱜ ᱵᱮᱵᱷᱟᱨ ᱠᱟᱱᱟ, ᱚᱱᱟ ᱫᱚ ᱢᱟᱥᱤᱱ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱞᱮᱠᱟᱱ ᱟᱨ ᱵᱟᱝ ᱥᱚᱢᱟᱱ ᱜᱮᱭᱟ᱾ ᱴᱮᱠᱱᱚᱞᱚᱡᱤ ᱨᱮ ᱥᱩᱫᱷᱨᱟᱹᱣ ᱞᱟᱹᱜᱤᱫ, ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱫᱚ ᱮᱴᱟᱜ ᱮᱯᱞᱤᱠᱮᱥᱚᱱ ᱠᱚ ᱨᱮ ᱥᱩᱫᱷᱨᱟᱹᱣ ᱦᱩᱭᱩᱜ ᱠᱟᱱᱟ ᱾ ᱚᱱᱟᱛᱮ, ᱜᱡᱚᱴᱱᱟ ᱨᱮᱭᱟᱜ ᱜᱩᱱ ᱠᱚ ᱫᱚ ᱵᱟᱝ ᱴᱷᱤᱠ ᱜᱮᱭᱟ ᱪᱮᱫᱟᱜ ᱥᱮ ᱱᱚᱣᱟ ᱫᱚ ᱚᱠᱛᱚ ᱥᱟᱶ ᱥᱟᱶ ᱛᱮ ᱵᱟᱝ ᱛᱟᱦᱮᱱᱟ ᱾ It is necessary to combine relevant battery characteristic parameters for real-time monitoring and adjust the amplitude and cycle of pulse charging to keep the battery in optimal operating condition-the intelligent charging mode described later.

 

ᱨᱤᱢᱚᱰᱮᱞᱤᱝ ᱯᱷᱨᱟᱢᱣᱟᱨᱠ ᱨᱮ ᱞᱤᱱ ᱢᱮ

 

RCTRAMITRESTICUTIRETE 5.0 ᱫᱚ ᱱᱟᱶᱟ ᱢᱮᱴᱨᱤᱠᱥ ᱠᱟᱱᱟ, ᱡᱟᱦᱟᱸ ᱨᱮ ᱢᱤᱫ X-mode appoption imposition impositive official official official official official ᱫᱚ ᱱᱚᱶᱟ ᱠᱟᱱᱟ ᱡᱮ ᱱᱚᱶᱟ ᱫᱚ ᱢᱤᱫ ᱞᱮᱠᱟᱱ ᱯᱨᱚᱵᱷᱟᱨ ᱠᱟᱱᱟ᱾ ᱱᱚᱣᱟ ᱫᱚ ᱢᱮᱴᱨᱤᱠᱥ ᱢᱮᱴᱨᱤᱠᱥ 20 kg appoption appoption lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmạkha kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi k̕t ᱠᱟᱱᱟ᱾” ᱯᱞᱟᱴᱯᱷᱚᱨᱢ ᱨᱮᱭᱟᱜ ᱜᱩᱱ ᱠᱚ ᱨᱮ, ᱢᱟᱨᱟᱝ ᱨᱤᱢᱚᱰᱮᱞᱤᱝ ᱫᱚ ᱯᱮᱨᱤᱯᱷᱮᱨᱟᱞ ᱨᱤᱢᱚᱰᱮᱞᱤᱝ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱜᱚᱱᱚᱝ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱵᱟᱹᱲᱛᱤ ᱨᱤᱜᱽᱨᱮᱥᱚᱱ ᱨᱮᱭᱟᱜ ᱚᱨᱡᱚ ᱠᱟᱱᱟ᱾ Its mechanism utilizes the "barrier" effect provided by the negative pulse to eliminate bubbles generated on the electrode surface during the reaction process, reducing the temperature rise and increase in internal resistance during battery charging. ᱱᱚᱶᱟ ᱫᱚ 0.0 ms ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱚ ᱠᱚᱢ ᱞᱟᱹᱜᱤᱫ ᱫᱟᱲᱮ ᱟᱨ ᱫᱟᱲᱮ ᱠᱚ ᱠᱚᱢ ᱞᱟᱹᱜᱤᱫ ᱠᱚ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ, ᱡᱟᱦᱟᱸ ᱨᱮ ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱨᱮᱭᱟᱜ ᱫᱟᱲᱮ ᱫᱚ ᱵᱟᱝ ᱵᱟᱹᱲᱤᱡ ᱜᱮᱭᱟ, ᱚᱱᱟ ᱫᱚ ᱵᱟᱝ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ᱾

 

ᱪᱤᱛᱟᱹᱨ 1 ᱨᱮ 1 kg kạmi lạgit̕ kạmi lạgit̕, appoption kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kana, ᱟᱨ ext , ext kạmi lạgit́ lạgit̕ kạmi lạgit́ lạgit̕ lạgit̕ kạmi ᱠᱟᱱᱟ᱾ ᱠᱟᱨᱯᱮᱴ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱢᱟᱨᱟᱝ ᱠᱟᱹᱢᱤ ᱫᱚ ᱦᱩᱭᱩᱜ ᱠᱟᱱᱟ ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱨᱮᱭᱟᱜ ᱠᱟᱹᱢᱤ ᱫᱚ ᱞᱟᱦᱟ ᱠᱷᱚᱱ ᱜᱮ ᱠᱟᱹᱢᱤ ᱞᱟᱹᱜᱤᱫ ᱵᱮᱵᱷᱟᱨᱚᱜ ᱠᱟᱱᱟ; ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱨᱮᱭᱟᱜ ᱠᱟᱹᱢᱤ ᱫᱚ ᱵᱟᱝ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ ᱟᱨ ᱵᱟᱹᱲᱛᱤ ᱠᱟᱹᱢᱤ ᱠᱚ ᱫᱚ ᱵᱟᱝ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ, ᱚᱱᱟ ᱛᱮ ᱵᱟᱹᱲᱛᱤ ᱠᱟᱹᱢᱤ ᱠᱚ ᱫᱚ ᱵᱤᱡᱽᱞᱤ ᱫᱟᱲᱮ ᱨᱮ ᱵᱚᱫᱚᱞ ᱨᱮᱭᱟᱜ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ; the function of the stop charging phase is to make the electrolyte ions diffuse more evenly and mitigate the polarization phenomenon, thereby improving the charging efficiency and extending the battery life.

 

ᱨᱤᱢᱚᱴ ᱫᱚ ᱴᱨᱟᱱᱥᱠᱨᱤᱯᱥᱚᱱᱟᱞ ᱯᱨᱚᱡᱮᱠᱴᱚᱨ ᱠᱟᱱᱟ

 

ᱪᱤᱛᱟᱹᱨ 1 ᱨᱮ ᱩᱫᱩᱜ ᱠᱟᱱ ᱞᱮᱠᱟ ᱛᱮ ᱢᱮᱴᱨᱤᱠᱥ ᱟᱨ ᱢᱮᱴᱨᱤᱠᱥ ᱫᱚ 100 μM 17 ᱨᱮ ᱩᱫᱩᱜ ᱟᱠᱟᱱᱟ, ᱡᱟᱦᱟᱸ ᱨᱮ ᱪᱤᱛᱟᱹᱨ ᱵᱷᱮᱞᱭᱩ ᱫᱚ ᱪᱤᱛᱟᱹᱨ 1 ᱨᱮ ᱩᱫᱩᱜ ᱟᱠᱟᱱᱟ᱾ ᱱᱚᱣᱟ ᱫᱚ ᱩᱫᱩᱜ ᱮᱫᱟᱭ ᱡᱮ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱫᱚ ᱢᱤᱫ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱨᱮ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱨᱮᱭᱟᱜ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱫᱚ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱛᱟᱞᱟ ᱨᱮ ᱢᱤᱫ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱩᱫᱩᱜ ᱠᱟᱱᱟ᱾ ᱞᱟᱛᱟᱨ ᱨᱮ ᱮᱢ ᱟᱠᱟᱱ ᱜᱚᱱᱚᱝ ᱠᱚ ᱢᱩᱫᱽ ᱨᱮ, ᱢᱮᱴᱨᱤᱠᱥ ᱫᱚ ᱯᱩᱭᱞᱩ ᱫᱷᱟᱯ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱢᱮᱴᱨᱤᱠᱥ ᱨᱮ ᱵᱚᱫᱚᱞ ᱞᱟᱹᱜᱤᱫ ᱟᱨ ᱚᱱᱟ ᱛᱟᱭᱚᱢ ᱨᱮ ᱢᱮᱱᱟᱜ ᱜᱚᱱᱚᱝ ᱠᱚ ᱫᱚ ᱟᱹᱰᱤ ᱠᱚᱢ ᱜᱮᱭᱟ᱾

Figure 11-6 ReflexTM Fast Charging Curve
Figure 11-7 Variable current intermittent charging curve

ᱛᱟᱭᱚᱢ ᱫᱚ ᱵᱷᱟᱞᱵᱷ ᱫᱚ ᱵᱷᱟᱞᱵᱷ ᱨᱮ ᱫᱚᱦᱚ ᱠᱟᱱᱟ, ᱚᱱᱟ ᱛᱟᱭᱚᱢ ᱪᱟᱨᱡᱽ ᱫᱚ ᱵᱷᱟᱞᱵᱷ ᱟᱨ ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱞᱟᱹᱜᱤᱫ ᱢᱤᱫ ᱫᱷᱟᱣ ᱛᱮ ᱫᱚᱦᱚ ᱠᱟᱛᱮ ᱪᱟᱨᱡᱽ ᱞᱟᱹᱜᱤᱫ ᱵᱮᱵᱚᱦᱟᱨᱚᱜ-ᱟ᱾ https lạgit̕ lạgit̕ lạgit̕ lạgit̕ kạmi lạgit̕ kạmi lạgit̕ lạgit̕ lạgit̕ kạmi lạgit̕, extion ar hoution lạgit̕ lạgit̕ kạmi lạgit̕ kạmi lạgit̕ lạgit̕ lạṛha ḍạr kạmi lạgit̕ lạṛha kạmi lạgit̕ lạṛha kạmi lạgit̕ lạṛhi, ᱟᱨ exoft office ar khable ar khant, ᱟᱨ exoction ᱠᱟᱱᱟ᱾ ᱱᱚᱣᱟ ᱫᱚ ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱠᱚᱢ ᱞᱟᱹᱜᱤᱫ ᱛᱮ ᱪᱟᱞᱟᱜ ᱠᱟᱱᱟ, ᱟᱨ ᱵᱟᱝ ᱠᱷᱟᱱ ᱵᱟᱹᱲᱛᱤ ᱫᱟᱲᱮ ᱟᱨ ᱵᱟᱝ ᱠᱷᱟᱱ ᱵᱮᱴᱟᱨᱤ ᱠᱚ ᱫᱚ ᱫᱚᱥᱟᱨ ᱟᱨᱟᱵᱽ ᱨᱮ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱪᱟᱞᱟᱜ ᱠᱟᱱᱟ᱾

 

ᱵᱷᱮᱜᱟᱨ ᱵᱷᱮᱜᱟᱨ ᱥᱤ ᱮᱢ ᱥᱤ ᱮᱠᱥᱴᱨᱮᱠᱴ ᱢᱚᱰᱮᱞ ᱠᱚ

ᱢᱮᱴᱨᱤᱠᱥ ᱨᱮᱭᱟᱜ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱫᱚ ᱢᱮᱴᱨᱤᱠᱥ, 1, 1 , extime aption aption aption aption extime aption extion a y a a a kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi kạmi ᱠᱟᱱᱟ᱾ ᱢᱮᱴᱨᱤᱠᱥ ᱟᱨ ᱢᱮᱴᱨᱤᱠᱥ ᱛᱟᱞᱟ ᱨᱮ ᱢᱤᱫ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱫᱚ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱨᱮᱭᱟᱜ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱛᱟᱞᱟ ᱨᱮ ᱢᱩᱲᱩᱫ ᱠᱟᱱᱟ ᱢᱮᱱᱠᱷᱟᱱ ᱚᱱᱟ ᱫᱚ ᱣᱮᱨᱭᱟᱵᱚᱞ ᱠᱚ ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱟᱱᱟ, ᱢᱮᱱᱠᱷᱟᱱ τ ᱫᱚ ᱵᱟᱝ ᱠᱟᱱᱟ᱾

 

1000 ᱟᱨ 111871-18 ᱨᱮᱭᱟᱜ ᱵᱮᱵᱷᱟᱨ, ᱱᱚᱶᱟ ᱫᱚ ᱟᱹᱰᱤ ᱵᱮᱥ ᱧᱮᱞᱚᱜ ᱠᱟᱱᱟ ᱡᱮ ᱱᱚᱶᱟ ᱫᱚ ᱢᱤᱫ ᱞᱮᱠᱟᱱ ᱰᱤᱡᱟᱭᱤᱱ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱵᱟᱝ ᱧᱮᱞᱚᱜ ᱠᱟᱱ ᱞᱮᱠᱟ ᱧᱮᱞᱚᱜ ᱠᱟᱱᱟ᱾ ᱥᱟᱱᱟᱢ ᱠᱷᱚᱱ ᱢᱟᱨᱟᱝ ᱵᱚᱫᱚᱞ ᱫᱚ, ᱥᱟᱱᱟᱢ ᱠᱷᱚᱱ ᱠᱚᱢ ᱫᱟᱲᱮ, lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kana lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kana kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kana, ᱚᱱᱟ ᱫᱚ ᱥᱟᱹᱨᱤ ᱠᱟᱱᱟ᱾

Figure 11-8 Intermittent charging curve with varying voltage
 

ᱨᱤᱢᱚᱴ, ᱢᱮᱴᱨᱤᱠᱥ ᱢᱮᱴᱨᱤᱠᱥ ᱵᱷᱮᱞᱭᱩ ᱵᱷᱮᱞᱭᱩ ᱵᱷᱮᱞᱭᱩ ᱫᱚ Z__________________ ᱟᱨ ᱢᱮᱴᱨᱤᱠᱥ ᱵᱷᱮᱞᱭᱩ ᱨᱮᱭᱟᱜ ᱜᱩᱱ ᱠᱚ ᱨᱮᱭᱟᱜ ᱢᱤᱫ ᱢᱮᱴᱨᱤᱠᱥ ᱞᱮᱠᱟ ᱧᱮᱞᱚᱜ-ᱟ᱾

 

Combining the advantages of pulse charging, Reflex™ fast charging, variable current intermittent charging, and variable voltage intermittent charging, the variable voltage, variable current wave-type positive and negative zero-pulse intermittent fast charging method has been developed and applied. ᱵᱟᱨ ᱞᱮᱠᱟᱱ ᱥᱟᱨᱠᱤᱴ ᱨᱮ ᱯᱮ ᱞᱮᱠᱟᱱ ᱠᱚᱱᱴᱨᱚᱞ ᱨᱮᱭᱟᱜ ᱞᱟᱛᱟᱨ ᱨᱮ ᱮᱢ ᱟᱠᱟᱱᱟ:

 

■ ■ ■ ■ ■ ■ ■ ■ μM (PMP) ᱨᱮ, iPg 1 ᱫᱚ ᱱᱤᱛ ᱦᱚᱸ ᱯᱟᱣᱟᱨ ᱨᱮᱭᱟᱜ ᱢᱩᱲᱩᱫ ᱜᱩᱱ ᱠᱚ ᱩᱫᱩᱜ ᱮᱫᱟ᱾

2. ᱪᱤᱛᱟᱹᱨ 2 ᱨᱮ ᱩᱫᱩᱜ ᱠᱟᱱ ᱞᱮᱠᱟ ᱜᱮ, ᱱᱚᱶᱟ ᱫᱚ ᱢᱤᱫ g-mi-meg kạmi kạmi ko kạmi kạmi kạmi kạmi kạmi ᱠᱟᱱᱟ ᱾

 

ᱪᱤᱛᱟᱹᱨ 19 ᱨᱮ ᱱᱚᱶᱟ ᱠᱚ ᱫᱚ ᱱᱚᱶᱟ ᱠᱟᱹᱢᱤ ᱠᱚ ᱨᱮ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ: 1. g − aption apps − ᱟᱨ CPP kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi lạgit̕ kạmi ᱠᱟᱱᱟ᱾ ᱠᱚᱢ ᱠᱷᱚᱱ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱵᱟᱪᱷᱟᱣ ᱢᱮ, ᱡᱩᱫᱤ ᱦᱚᱸ, wttps/mintions ᱫᱚ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱵᱚᱫᱚᱞ ᱠᱟᱛᱮ ᱯᱞᱟᱴᱯᱷᱚᱨᱢ ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱟᱛᱮ ᱠᱚᱢ ᱫᱟᱢ ᱛᱮ ᱪᱟᱞᱟᱣ ᱫᱟᱲᱮᱭᱟᱜ-ᱟ᱾

 

ᱥᱞᱟᱭᱤᱰᱟᱨ

ᱥᱟᱱᱟᱢ ᱮᱯᱞᱤᱠᱮᱥᱚᱱ ᱨᱮ ᱥᱚᱯᱷᱴᱣᱮᱭᱟᱨ ᱟᱨ ᱚᱱᱟ ᱨᱮᱭᱟᱜ ᱜᱚᱱᱚᱝ ᱠᱚ ᱢᱮᱱᱟᱜᱼᱟ ᱾ ᱡᱟᱦᱟᱜᱮ ᱦᱩᱭᱮᱱ, ᱠᱟᱨᱴᱨᱤᱡᱽ ᱨᱮᱭᱟᱜ ᱫᱟᱲᱮ ᱫᱚ ᱟᱹᱰᱤ ᱠᱚᱢ ᱜᱮᱭᱟ, ᱚᱱᱟᱛᱮ ᱵᱟᱹᱲᱛᱤ ᱵᱮᱵᱷᱟᱨ ᱞᱟᱹᱜᱤᱫ, ᱥᱤᱯᱤᱝ ᱨᱮᱭᱟᱜ ᱥᱯᱤᱰ ᱫᱚ ᱜᱞᱩᱠᱚᱡᱽ ᱨᱮ ᱵᱮᱵᱷᱟᱨ ᱦᱩᱭᱩᱜ-ᱟ ᱾ ᱵᱮᱴᱟᱨᱤ ᱪᱟᱨᱡᱽ ᱫᱚ ᱢᱤᱫ ᱚᱠᱛᱚ ᱨᱮ ᱢᱤᱫ ᱥᱮ ᱠᱚᱢ ᱢᱤᱫ ᱡᱚᱥ ᱞᱟᱹᱜᱤᱫ ᱢᱤᱫ ᱜᱚᱱᱚᱝ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱢᱟᱥᱤᱱ ᱨᱮ ᱵᱚᱫᱚᱞ ᱨᱮᱭᱟᱜ ᱫᱟᱣ ᱮᱢᱚᱜ ᱠᱟᱱᱟ ᱾ ᱱᱚᱣᱟ ᱫᱚ ᱢᱤᱫ ᱚᱠᱛᱚ ᱠᱟᱱᱟ ᱡᱟᱦᱟᱸ ᱫᱚ ᱠᱟᱨᱴᱩᱱ (CR) ᱨᱮ ᱵᱚᱫᱚᱞ ᱟᱨ SEM (Chaptions) ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱚ ᱞᱟᱹᱜᱤᱫ ᱠᱟᱱᱟ, ᱡᱟᱦᱟᱸ ᱫᱚ ᱠᱟᱨᱴᱩᱱ ᱨᱮ ᱵᱟᱝ ᱛᱟᱦᱮᱱ ᱠᱟᱱᱟ ᱾

 

ᱵᱽᱨᱟᱣᱩᱡᱟᱨ ᱫᱚ ᱟᱹᱰᱤ ᱜᱟᱱ ᱫᱷᱭᱟᱱ ᱮ ᱟᱠᱚᱨᱥᱚᱱ ᱠᱮᱫᱟ ᱾ ᱱᱚᱶᱟ ᱠᱟᱹᱢᱤ ᱨᱮ ᱵᱟᱹᱲᱛᱤ ᱠᱷᱚᱨᱚᱪ ᱫᱚ ᱥᱚᱱᱜᱚᱛᱷᱟᱱ ᱨᱮ ᱵᱟᱹᱲᱛᱤ ᱠᱟᱹᱢᱤ ᱠᱟᱱᱟ ᱚᱠᱟ ᱫᱚ ᱟᱜᱟᱢ ᱨᱮ ᱵᱟᱡᱟᱨ ᱨᱮ ᱵᱚᱫᱚᱞ ᱠᱚ ᱞᱟᱹᱜᱤᱫ ᱵᱟᱹᱲᱛᱤ ᱠᱷᱚᱨᱚᱪ ᱠᱚ ᱠᱚᱢ ᱫᱟᱲᱮᱭᱟᱜ-ᱟ ᱾ ᱱᱚᱣᱟ ᱫᱚ, ᱵᱮᱵᱷᱟᱨ, ᱫᱟᱲᱮ ᱟᱨ ᱨᱩᱠᱷᱤᱭᱟᱹ ᱨᱮᱭᱟᱜ ᱜᱩᱱ ᱠᱚ ᱨᱮᱭᱟᱜ ᱞᱮᱠᱟᱛᱮ ᱥᱚᱫᱚᱨᱚᱜ ᱠᱟᱱᱟ ᱾

Figure 11-9 Wave-type intermittent positive-negative-zero pulse fast charging curve
 
ᱤᱱᱴᱮᱜᱽᱨᱮᱥᱚᱱ