{"id":2645,"date":"2024-03-10T06:15:00","date_gmt":"2024-03-10T06:15:00","guid":{"rendered":"http:\/\/www.kmdpower.com\/?p=2645"},"modified":"2025-01-13T11:07:05","modified_gmt":"2025-01-13T11:07:05","slug":"lifepo4-voltage-state-of-charge-table","status":"publish","type":"post","link":"https:\/\/www.kmdpower.com\/cs\/news\/lifepo4-voltage-state-of-charge-table\/","title":{"rendered":"Nap\u011b\u0165ov\u00e1 tabulka Lifepo4 12V 24V 48V a tabulka stavu nabit\u00ed Lifepo4"},"content":{"rendered":"

Na str\u00e1nk\u00e1ch\u00a0Nap\u011b\u0165ov\u00fd diagram Lifepo4 12V 24V 48V<\/strong>\u00a0a\u00a0Tabulka stavu nabit\u00ed nap\u011bt\u00ed LiFePO4<\/strong>\u00a0poskytuje ucelen\u00fd p\u0159ehled nap\u011b\u0165ov\u00fdch \u00farovn\u00ed odpov\u00eddaj\u00edc\u00edch r\u016fzn\u00fdm stav\u016fm nabit\u00ed pro\u00a0Baterie LiFePO4<\/a>. Pochopen\u00ed t\u011bchto \u00farovn\u00ed nap\u011bt\u00ed je z\u00e1sadn\u00ed pro sledov\u00e1n\u00ed a \u0159\u00edzen\u00ed v\u00fdkonu baterie. Na z\u00e1klad\u011b t\u00e9to tabulky mohou u\u017eivatel\u00e9 p\u0159esn\u011b vyhodnotit stav nabit\u00ed sv\u00fdch bateri\u00ed LiFePO4 a podle toho optimalizovat jejich pou\u017e\u00edv\u00e1n\u00ed.<\/p>\n

Co je LiFePO4?<\/h2>\n

Baterie LiFePO4 neboli lithium-\u017eelezo-fosf\u00e1tov\u00e9 baterie jsou typem lithium-iontov\u00e9 baterie slo\u017een\u00e9 z iont\u016f lithia v kombinaci s FePO4. Sv\u00fdm vzhledem, velikost\u00ed a hmotnost\u00ed jsou podobn\u00e9 olov\u011bn\u00fdm akumul\u00e1tor\u016fm, ale v\u00fdrazn\u011b se li\u0161\u00ed elektrick\u00fdm v\u00fdkonem a bezpe\u010dnost\u00ed. Ve srovn\u00e1n\u00ed s jin\u00fdmi typy lithium-iontov\u00fdch bateri\u00ed nab\u00edzej\u00ed baterie LiFePO4 vy\u0161\u0161\u00ed vyb\u00edjec\u00ed v\u00fdkon, ni\u017e\u0161\u00ed hustotu energie, dlouhodobou stabilitu a vy\u0161\u0161\u00ed rychlost nab\u00edjen\u00ed. D\u00edky t\u011bmto v\u00fdhod\u00e1m jsou preferovan\u00fdm typem bateri\u00ed pro elektromobily, lod\u011b, drony a elektrick\u00e9 n\u00e1\u0159ad\u00ed. Krom\u011b toho se pou\u017e\u00edvaj\u00ed v syst\u00e9mech skladov\u00e1n\u00ed sol\u00e1rn\u00ed energie a z\u00e1lo\u017en\u00edch zdroj\u00edch energie d\u00edky dlouh\u00e9 \u017eivotnosti nab\u00edjec\u00edho cyklu a vynikaj\u00edc\u00ed stabilit\u011b p\u0159i vysok\u00fdch teplot\u00e1ch.<\/p>\n

Tabulka stavu nabit\u00ed za\u0159\u00edzen\u00ed Lifepo4<\/h2>\n

Tabulka stavu nabit\u00ed za\u0159\u00edzen\u00ed Lifepo4<\/h3>\n
\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Stav nabit\u00ed (SOC)<\/th>\n3,2 V Nap\u011bt\u00ed baterie (V)<\/th>\n12V Nap\u011bt\u00ed baterie (V)<\/th>\n36V Nap\u011bt\u00ed baterie (V)<\/th>\n<\/tr>\n<\/thead>\n
100 % Aufladung<\/td>\n3.65V<\/td>\n14.6V<\/td>\n43.8V<\/td>\n<\/tr>\n
100 % Ruhe<\/td>\n3.4V<\/td>\n13.6V<\/td>\n40.8V<\/td>\n<\/tr>\n
90%<\/td>\n3.35V<\/td>\n13.4V<\/td>\n40.2<\/td>\n<\/tr>\n
80%<\/td>\n3.32V<\/td>\n13.28V<\/td>\n39.84V<\/td>\n<\/tr>\n
70%<\/td>\n3.3V<\/td>\n13.2V<\/td>\n39.6V<\/td>\n<\/tr>\n
60%<\/td>\n3.27V<\/td>\n13.08V<\/td>\n39.24V<\/td>\n<\/tr>\n
50%<\/td>\n3.26V<\/td>\n13.04V<\/td>\n39.12V<\/td>\n<\/tr>\n
40%<\/td>\n3.25V<\/td>\n13V<\/td>\n39V<\/td>\n<\/tr>\n
30%<\/td>\n3.22V<\/td>\n12.88V<\/td>\n38.64V<\/td>\n<\/tr>\n
20%<\/td>\n3.2V<\/td>\n12.8V<\/td>\n38.4<\/td>\n<\/tr>\n
10%<\/td>\n3V<\/td>\n12V<\/td>\n36V<\/td>\n<\/tr>\n
0%<\/td>\n2.5V<\/td>\n10V<\/td>\n30V<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Nap\u011bt\u00ed Lifepo4 Tabulka stavu nabit\u00ed 24V<\/h3>\n
\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Stav nabit\u00ed (SOC)<\/th>\n24V Nap\u011bt\u00ed baterie (V)<\/th>\n<\/tr>\n<\/thead>\n
100 % Aufladung<\/td>\n29.2V<\/td>\n<\/tr>\n
100 % Ruhe<\/td>\n27.2V<\/td>\n<\/tr>\n
90%<\/td>\n26.8V<\/td>\n<\/tr>\n
80%<\/td>\n26.56V<\/td>\n<\/tr>\n
70%<\/td>\n26.4V<\/td>\n<\/tr>\n
60%<\/td>\n26.16V<\/td>\n<\/tr>\n
50%<\/td>\n26.08V<\/td>\n<\/tr>\n
40%<\/td>\n26V<\/td>\n<\/tr>\n
30%<\/td>\n25.76V<\/td>\n<\/tr>\n
20%<\/td>\n25.6V<\/td>\n<\/tr>\n
10%<\/td>\n24V<\/td>\n<\/tr>\n
0%<\/td>\n20V<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Nap\u011bt\u00ed Lifepo4 Tabulka stavu nabit\u00ed 48V<\/h3>\n
\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Stav nabit\u00ed (SOC)<\/th>\n48V Nap\u011bt\u00ed baterie (V)<\/th>\n<\/tr>\n<\/thead>\n
100 % Aufladung<\/td>\n58.4V<\/td>\n<\/tr>\n
100 % Ruhe<\/td>\n58.4V<\/td>\n<\/tr>\n
90%<\/td>\n53.6<\/td>\n<\/tr>\n
80%<\/td>\n53.12V<\/td>\n<\/tr>\n
70%<\/td>\n52.8V<\/td>\n<\/tr>\n
60%<\/td>\n52.32V<\/td>\n<\/tr>\n
50%<\/td>\n52.16<\/td>\n<\/tr>\n
40%<\/td>\n52V<\/td>\n<\/tr>\n
30%<\/td>\n51.52V<\/td>\n<\/tr>\n
20%<\/td>\n51.2V<\/td>\n<\/tr>\n
10%<\/td>\n48V<\/td>\n<\/tr>\n
0%<\/td>\n40V<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Tabulka stavu nabit\u00ed Lifepo4 72V<\/h3>\n
\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Stav nabit\u00ed (SOC)<\/th>\nNap\u011bt\u00ed baterie (V)<\/th>\n<\/tr>\n<\/thead>\n
0%<\/td>\n60V - 63V<\/td>\n<\/tr>\n
10%<\/td>\n63V - 65V<\/td>\n<\/tr>\n
20%<\/td>\n65V - 67V<\/td>\n<\/tr>\n
30%<\/td>\n67V - 69V<\/td>\n<\/tr>\n
40%<\/td>\n69V - 71V<\/td>\n<\/tr>\n
50%<\/td>\n71V - 73V<\/td>\n<\/tr>\n
60%<\/td>\n73V - 75V<\/td>\n<\/tr>\n
70%<\/td>\n75V - 77V<\/td>\n<\/tr>\n
80%<\/td>\n77V - 79V<\/td>\n<\/tr>\n
90%<\/td>\n79V - 81V<\/td>\n<\/tr>\n
100%<\/td>\n81V - 83V<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Nap\u011b\u0165ov\u00fd graf LiFePO4 (3,2 V, 12 V, 24 V, 48 V)<\/h2>\n

3,2V Lifepo4 nap\u011b\u0165ov\u00fd graf<\/h3>\n

\"3-2v-lifepo4-cell-volatage-chart\"<\/p>\n

Nap\u011b\u0165ov\u00fd graf Lifepo4 12V<\/h3>\n

\"12v-lifepo4-cell-volatage-chart\"<\/p>\n

24V nap\u011b\u0165ov\u00fd diagram Lifepo4<\/h3>\n

\"24v-lifepo4-cell-volatage-chart\"<\/p>\n

36V Lifepo4 nap\u011b\u0165ov\u00fd graf<\/h3>\n

\"36v-lifepo4-cell-volatage-chart\"<\/p>\n

48V nap\u011b\u0165ov\u00fd diagram Lifepo4<\/h3>\n

\"48v-lifepo4-cell-volatage-chart\"<\/p>\n

Nab\u00edjen\u00ed a vyb\u00edjen\u00ed bateri\u00ed LiFePO4<\/strong><\/h2>\n

Tabulka stavu nabit\u00ed (SoC) a nap\u011bt\u00ed baterie LiFePO4 poskytuje ucelen\u00fd p\u0159ehled o tom, jak se m\u011bn\u00ed nap\u011bt\u00ed baterie LiFePO4 v z\u00e1vislosti na jej\u00edm stavu nabit\u00ed. SoC p\u0159edstavuje procento dostupn\u00e9 energie ulo\u017een\u00e9 v baterii vzhledem k jej\u00ed maxim\u00e1ln\u00ed kapacit\u011b. Pochopen\u00ed tohoto vztahu je kl\u00ed\u010dov\u00e9 pro sledov\u00e1n\u00ed v\u00fdkonu baterie a zaji\u0161t\u011bn\u00ed optim\u00e1ln\u00edho provozu v r\u016fzn\u00fdch aplikac\u00edch.<\/p>\n

\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
Stav nabit\u00ed (SoC)<\/th>\nNap\u011bt\u00ed baterie LiFePO4 (V)<\/th>\n<\/tr>\n<\/thead>\n
0%<\/td>\n2,5 V - 3,0 V<\/td>\n<\/tr>\n
10%<\/td>\n3,0 V - 3,2 V<\/td>\n<\/tr>\n
20%<\/td>\n3,2 V - 3,4 V<\/td>\n<\/tr>\n
30%<\/td>\n3,4 V - 3,6 V<\/td>\n<\/tr>\n
40%<\/td>\n3,6 V - 3,8 V<\/td>\n<\/tr>\n
50%<\/td>\n3,8 V - 4,0 V<\/td>\n<\/tr>\n
60%<\/td>\n4,0 V - 4,2 V<\/td>\n<\/tr>\n
70%<\/td>\n4,2 V - 4,4 V<\/td>\n<\/tr>\n
80%<\/td>\n4,4 V - 4,6 V<\/td>\n<\/tr>\n
90%<\/td>\n4,6 V - 4,8 V<\/td>\n<\/tr>\n
100%<\/td>\n4,8 V - 5,0 V<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Ur\u010den\u00ed stavu nabit\u00ed baterie (SoC) lze prov\u00e9st r\u016fzn\u00fdmi metodami, v\u010detn\u011b vyhodnocen\u00ed nap\u011bt\u00ed, po\u010d\u00edt\u00e1n\u00ed coulomb\u016f a anal\u00fdzy specifick\u00e9 hmotnosti.<\/p>\n

Posouzen\u00ed nap\u011bt\u00ed:<\/strong>\u00a0Vy\u0161\u0161\u00ed nap\u011bt\u00ed baterie obvykle znamen\u00e1, \u017ee je baterie nabit\u011bj\u0161\u00ed. Pro p\u0159esn\u00e9 m\u011b\u0159en\u00ed je nezbytn\u00e9 nechat baterii p\u0159ed m\u011b\u0159en\u00edm alespo\u0148 \u010dty\u0159i hodiny odpo\u010d\u00edvat. N\u011bkte\u0159\u00ed v\u00fdrobci doporu\u010duj\u00ed je\u0161t\u011b del\u0161\u00ed dobu klidu, a\u017e 24 hodin, aby byly zaji\u0161t\u011bny p\u0159esn\u00e9 v\u00fdsledky.<\/p>\n

Po\u010d\u00edt\u00e1n\u00ed Coulomb\u016f:<\/strong>\u00a0Touto metodou se m\u011b\u0159\u00ed tok proudu do baterie a z baterie, vyj\u00e1d\u0159en\u00fd v amp\u00e9rsekund\u00e1ch (As). Sledov\u00e1n\u00edm rychlosti nab\u00edjen\u00ed a vyb\u00edjen\u00ed baterie umo\u017e\u0148uje coulomb counting p\u0159esn\u00e9 vyhodnocen\u00ed SoC.<\/p>\n

Anal\u00fdza specifick\u00e9 hmotnosti:<\/strong>\u00a0M\u011b\u0159en\u00ed SoC pomoc\u00ed specifick\u00e9 hmotnosti vy\u017eaduje hydrometr. Tento p\u0159\u00edstroj sleduje hustotu kapaliny na z\u00e1klad\u011b vztlaku a poskytuje informace o stavu baterie.<\/p>\n

Pro prodlou\u017een\u00ed \u017eivotnosti baterie LiFePO4 je nezbytn\u00e9 ji spr\u00e1vn\u011b nab\u00edjet. Ka\u017ed\u00fd typ baterie m\u00e1 specifickou prahovou hodnotu nap\u011bt\u00ed pro dosa\u017een\u00ed maxim\u00e1ln\u00edho v\u00fdkonu a zlep\u0161en\u00ed stavu baterie. Odkaz na tabulku SoC m\u016f\u017ee b\u00fdt vod\u00edtkem p\u0159i dob\u00edjen\u00ed. Nap\u0159\u00edklad \u00farove\u0148 nabit\u00ed 24V baterie 90% odpov\u00edd\u00e1 p\u0159ibli\u017en\u011b 26,8V.<\/p>\n

K\u0159ivka stavu nabit\u00ed zn\u00e1zor\u0148uje, jak se m\u011bn\u00ed nap\u011bt\u00ed 1\u010dl\u00e1nkov\u00e9 baterie v pr\u016fb\u011bhu nab\u00edjen\u00ed. Tato k\u0159ivka poskytuje cenn\u00e9 informace o chov\u00e1n\u00ed baterie p\u0159i nab\u00edjen\u00ed a pom\u00e1h\u00e1 optimalizovat nab\u00edjec\u00ed strategie pro prodlou\u017een\u00ed \u017eivotnosti baterie.<\/p>\n

K\u0159ivka stavu nabit\u00ed baterie Lifepo4 @ 1C 25C<\/h3>\n

Nap\u011bt\u00ed: Vy\u0161\u0161\u00ed jmenovit\u00e9 nap\u011bt\u00ed znamen\u00e1, \u017ee baterie je v\u00edce nabit\u00e1. Pokud nap\u0159\u00edklad baterie LiFePO4 s nomin\u00e1ln\u00edm nap\u011bt\u00edm 3,2 V dos\u00e1hne nap\u011bt\u00ed 3,65 V, znamen\u00e1 to, \u017ee je baterie vysoce nabit\u00e1.
\nCoulomb\u016fv \u010d\u00edta\u010d: Tento p\u0159\u00edstroj m\u011b\u0159\u00ed tok proudu do baterie a z baterie, vyj\u00e1d\u0159en\u00fd v amp\u00e9rsekund\u00e1ch (As), a m\u011b\u0159\u00ed tak rychlost nab\u00edjen\u00ed a vyb\u00edjen\u00ed baterie.
\nSpecifick\u00e1 hmotnost: Ke stanoven\u00ed stavu nabit\u00ed (SoC) je zapot\u0159eb\u00ed hydrometr. Hustotu kapaliny ur\u010duje na z\u00e1klad\u011b vztlaku.<\/p>\n

\"12v-lifepo4-vyb\u00edjec\u00ed-proudov\u00e1-k\u0159ivka\"<\/p>\n

Parametry nab\u00edjen\u00ed baterie LiFePO4<\/strong><\/h3>\n

Nab\u00edjen\u00ed bateri\u00ed LiFePO4 zahrnuje r\u016fzn\u00e9 parametry nap\u011bt\u00ed, v\u010detn\u011b nab\u00edjec\u00edho, plovouc\u00edho, maxim\u00e1ln\u00edho\/minim\u00e1ln\u00edho a jmenovit\u00e9ho nap\u011bt\u00ed. N\u00ed\u017ee je uvedena tabulka s podrobn\u00fdm popisem t\u011bchto parametr\u016f nab\u00edjen\u00ed v r\u016fzn\u00fdch nap\u011b\u0165ov\u00fdch \u00farovn\u00edch: 3,2 V, 12 V, 24 V, 48 V, 72 V.<\/p>\n

\n\n\n\n\n\n\n\n\n\n
Nap\u011bt\u00ed (V)<\/th>\nRozsah nab\u00edjec\u00edho nap\u011bt\u00ed<\/th>\nRozsah plov\u00e1kov\u00e9ho nap\u011bt\u00ed<\/th>\nMaxim\u00e1ln\u00ed nap\u011bt\u00ed<\/th>\nMinim\u00e1ln\u00ed nap\u011bt\u00ed<\/th>\nJmenovit\u00e9 nap\u011bt\u00ed<\/th>\n<\/tr>\n<\/thead>\n
3.2V<\/td>\n3,6 V - 3,8 V<\/td>\n3,4 V - 3,6 V<\/td>\n4.0V<\/td>\n2.5V<\/td>\n3.2V<\/td>\n<\/tr>\n
12V<\/td>\n14,4 V - 14,6 V<\/td>\n13,6 V - 13,8 V<\/td>\n15.0V<\/td>\n10.0V<\/td>\n12V<\/td>\n<\/tr>\n
24V<\/td>\n28,8 V - 29,2 V<\/td>\n27,2 V - 27,6 V<\/td>\n30.0V<\/td>\n20.0V<\/td>\n24V<\/td>\n<\/tr>\n
48V<\/td>\n57,6 V - 58,4 V<\/td>\n54,4 V - 55,2 V<\/td>\n60.0V<\/td>\n40.0V<\/td>\n48V<\/td>\n<\/tr>\n
72V<\/td>\n86,4 V - 87,6 V<\/td>\n81,6 V - 82,8 V<\/td>\n90.0V<\/td>\n60.0V<\/td>\n72V<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Lifepo4 Battery Bulk Float Vyrovn\u00e1n\u00ed nap\u011bt\u00ed<\/h3>\n

B\u011b\u017en\u011b se vyskytuj\u00ed t\u0159i z\u00e1kladn\u00ed typy nap\u011bt\u00ed: hromadn\u00e9, plovouc\u00ed a vyrovn\u00e1vac\u00ed.<\/p>\n

Hromadn\u00e9 nap\u011bt\u00ed:<\/strong>\u00a0Tato \u00farove\u0148 nap\u011bt\u00ed usnad\u0148uje rychl\u00e9 nab\u00edjen\u00ed baterie, kter\u00e9 se obvykle projevuje v po\u010d\u00e1te\u010dn\u00ed f\u00e1zi nab\u00edjen\u00ed, kdy je baterie zcela vybit\u00e1. U 12voltov\u00e9 baterie LiFePO4 je objemov\u00e9 nap\u011bt\u00ed 14,6 V.<\/p>\n

Nap\u011bt\u00ed plov\u00e1ku:<\/strong>\u00a0Toto nap\u011bt\u00ed, kter\u00e9 pracuje na ni\u017e\u0161\u00ed \u00farovni ne\u017e objemov\u00e9 nap\u011bt\u00ed, se udr\u017euje, jakmile baterie dos\u00e1hne pln\u00e9ho nabit\u00ed. U 12voltov\u00e9 baterie LiFePO4 je plovouc\u00ed nap\u011bt\u00ed 13,5 V.<\/p>\n

Vyrovn\u00e1n\u00ed nap\u011bt\u00ed:<\/strong>\u00a0Vyrovn\u00e1v\u00e1n\u00ed je kl\u00ed\u010dov\u00fd proces pro udr\u017een\u00ed kapacity baterie, kter\u00fd vy\u017eaduje pravideln\u00e9 prov\u00e1d\u011bn\u00ed. Vyrovn\u00e1vac\u00ed nap\u011bt\u00ed pro 12voltovou baterii LiFePO4 je 14,6 V.\u3001.<\/p>\n

\n\n\n\n\n\n\n\n
Nap\u011bt\u00ed (V)<\/th>\n3.2V<\/th>\n12V<\/th>\n24V<\/th>\n48V<\/th>\n72V<\/th>\n<\/tr>\n<\/thead>\n
Hromadn\u00e9<\/td>\n3.65<\/td>\n14.6<\/td>\n29.2<\/td>\n58.4<\/td>\n87.6<\/td>\n<\/tr>\n
Float<\/td>\n3.375<\/td>\n13.5<\/td>\n27.0<\/td>\n54.0<\/td>\n81.0<\/td>\n<\/tr>\n
Vyrovnat<\/td>\n3.65<\/td>\n14.6<\/td>\n29.2<\/td>\n58.4<\/td>\n87.6<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

K\u0159ivka vyb\u00edjec\u00edho proudu 12V baterie Lifepo4 0,2C 0,3C 0,5C 1C 2C<\/h3>\n

K vyb\u00edjen\u00ed baterie doch\u00e1z\u00ed, kdy\u017e se z baterie odeb\u00edr\u00e1 energie pro nab\u00edjen\u00ed spot\u0159ebi\u010d\u016f. Vyb\u00edjec\u00ed k\u0159ivka graficky zn\u00e1zor\u0148uje z\u00e1vislost mezi nap\u011bt\u00edm a dobou vyb\u00edjen\u00ed.N\u00ed\u017ee najdete vyb\u00edjec\u00ed k\u0159ivku pro 12V baterii LiFePO4 p\u0159i r\u016fzn\u00fdch rychlostech vyb\u00edjen\u00ed.<\/p>\n

Faktory ovliv\u0148uj\u00edc\u00ed stav nabit\u00ed baterie<\/h2>\n
\n\n\n\n\n\n\n\n\n
Faktor<\/th>\nPopis<\/th>\nZdroj:<\/th>\n<\/tr>\n<\/thead>\n
Teplota baterie<\/td>\nTeplota baterie je jedn\u00edm z d\u016fle\u017eit\u00fdch faktor\u016f ovliv\u0148uj\u00edc\u00edch SOC. Vysok\u00e9 teploty urychluj\u00ed vnit\u0159n\u00ed chemick\u00e9 reakce v baterii, co\u017e vede ke zv\u00fd\u0161en\u00e9 ztr\u00e1t\u011b kapacity baterie a sn\u00ed\u017een\u00ed \u00fa\u010dinnosti nab\u00edjen\u00ed.<\/td>\nMinisterstvo energetiky USA<\/td>\n<\/tr>\n
Materi\u00e1l baterie<\/td>\nR\u016fzn\u00e9 materi\u00e1ly bateri\u00ed maj\u00ed r\u016fzn\u00e9 chemick\u00e9 vlastnosti a vnit\u0159n\u00ed strukturu, kter\u00e9 ovliv\u0148uj\u00ed nab\u00edjec\u00ed a vyb\u00edjec\u00ed vlastnosti, a t\u00edm i SOC.<\/td>\nBattery University<\/td>\n<\/tr>\n
Aplikace baterie<\/td>\nBaterie proch\u00e1zej\u00ed r\u016fzn\u00fdmi re\u017eimy nab\u00edjen\u00ed a vyb\u00edjen\u00ed v r\u016fzn\u00fdch aplika\u010dn\u00edch sc\u00e9n\u00e1\u0159\u00edch a p\u0159i r\u016fzn\u00fdch zp\u016fsobech pou\u017eit\u00ed, co\u017e p\u0159\u00edmo ovliv\u0148uje jejich \u00farove\u0148 SOC. Nap\u0159\u00edklad elektrick\u00e1 vozidla a syst\u00e9my skladov\u00e1n\u00ed energie maj\u00ed r\u016fzn\u00e9 zp\u016fsoby pou\u017e\u00edv\u00e1n\u00ed bateri\u00ed, co\u017e vede k r\u016fzn\u00fdm \u00farovn\u00edm SOC.<\/td>\nBattery University<\/td>\n<\/tr>\n
\u00dadr\u017eba bateri\u00ed<\/td>\nNespr\u00e1vn\u00e1 \u00fadr\u017eba vede ke sn\u00ed\u017een\u00ed kapacity baterie a nestabiln\u00edmu stavu SOC. Typick\u00e1 nespr\u00e1vn\u00e1 \u00fadr\u017eba zahrnuje nespr\u00e1vn\u00e9 nab\u00edjen\u00ed, del\u0161\u00ed obdob\u00ed ne\u010dinnosti a nepravideln\u00e9 kontroly \u00fadr\u017eby.<\/td>\nMinisterstvo energetiky USA<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Rozsah kapacity lithium-\u017eelezo-fosf\u00e1tov\u00fdch bateri\u00ed (Lifepo4)<\/h2>\n
\n\n\n\n\n\n\n\n\n\n\n
Kapacita baterie (Ah)<\/th>\nTypick\u00e9 aplikace<\/th>\nDal\u0161\u00ed podrobnosti<\/th>\n<\/tr>\n<\/thead>\n
10ah<\/td>\nP\u0159enosn\u00e1 elektronika, mal\u00e1 za\u0159\u00edzen\u00ed<\/td>\nVhodn\u00e9 pro za\u0159\u00edzen\u00ed, jako jsou p\u0159enosn\u00e9 nab\u00edje\u010dky, LED sv\u00edtilny a mal\u00e9 elektronick\u00e9 p\u0159\u00edstroje.<\/td>\n<\/tr>\n
20ah<\/td>\nElektrick\u00e1 kola, bezpe\u010dnostn\u00ed za\u0159\u00edzen\u00ed<\/td>\nIde\u00e1ln\u00ed pro nap\u00e1jen\u00ed elektrick\u00fdch j\u00edzdn\u00edch kol, bezpe\u010dnostn\u00edch kamer a mal\u00fdch syst\u00e9m\u016f obnoviteln\u00fdch zdroj\u016f energie.<\/td>\n<\/tr>\n
50ah<\/td>\nSyst\u00e9my skladov\u00e1n\u00ed sol\u00e1rn\u00ed energie, mal\u00e9 spot\u0159ebi\u010de<\/td>\nB\u011b\u017en\u011b se pou\u017e\u00edv\u00e1 v off-grid sol\u00e1rn\u00edch syst\u00e9mech, pro z\u00e1lo\u017en\u00ed nap\u00e1jen\u00ed dom\u00e1c\u00edch spot\u0159ebi\u010d\u016f, jako jsou chladni\u010dky, a v mal\u00fdch projektech obnoviteln\u00fdch zdroj\u016f energie.<\/td>\n<\/tr>\n
100ah<\/td>\nBaterie pro obytn\u00e1 vozidla, lodn\u00ed baterie, z\u00e1lo\u017en\u00ed nap\u00e1jen\u00ed pro dom\u00e1c\u00ed spot\u0159ebi\u010de<\/td>\nVhodn\u00e9 pro nap\u00e1jen\u00ed obytn\u00fdch vozidel, lod\u00ed a pro z\u00e1lo\u017en\u00ed nap\u00e1jen\u00ed z\u00e1kladn\u00edch dom\u00e1c\u00edch spot\u0159ebi\u010d\u016f p\u0159i v\u00fdpadku proudu nebo v m\u00edstech mimo elektrickou s\u00ed\u0165.<\/td>\n<\/tr>\n
150ah<\/td>\nSyst\u00e9my skladov\u00e1n\u00ed energie pro mal\u00e9 domy nebo chaty, st\u0159edn\u011b velk\u00e9 syst\u00e9my z\u00e1lo\u017en\u00edho nap\u00e1jen\u00ed<\/td>\nJe navr\u017een pro pou\u017eit\u00ed v mal\u00fdch domech nebo chat\u00e1ch mimo s\u00ed\u0165 a jako st\u0159edn\u011b velk\u00fd z\u00e1lo\u017en\u00ed nap\u00e1jec\u00ed syst\u00e9m pro vzd\u00e1len\u00e9 lokality nebo jako sekund\u00e1rn\u00ed zdroj energie pro obytn\u00e9 nemovitosti.<\/td>\n<\/tr>\n
200ah<\/td>\nVelkokapacitn\u00ed syst\u00e9my skladov\u00e1n\u00ed energie, elektrick\u00e1 vozidla, z\u00e1lo\u017en\u00ed nap\u00e1jen\u00ed pro komer\u010dn\u00ed budovy nebo za\u0159\u00edzen\u00ed.<\/td>\nIde\u00e1ln\u00ed pro rozs\u00e1hl\u00e9 projekty skladov\u00e1n\u00ed energie, nap\u00e1jen\u00ed elektromobil\u016f a z\u00e1lo\u017en\u00ed nap\u00e1jen\u00ed komer\u010dn\u00edch budov, datov\u00fdch center nebo kritick\u00fdch za\u0159\u00edzen\u00ed.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

P\u011bt kl\u00ed\u010dov\u00fdch faktor\u016f ovliv\u0148uj\u00edc\u00edch \u017eivotnost bateri\u00ed LiFePO4.<\/h2>\n
\n\n\n\n\n\n\n\n\n\n
Faktor<\/th>\nPopis<\/th>\nZdroj dat<\/th>\n<\/tr>\n<\/thead>\n
P\u0159eb\u00edjen\u00ed\/p\u0159eb\u00edjen\u00ed<\/td>\nP\u0159eb\u00edjen\u00ed nebo nadm\u011brn\u00e9 vyb\u00edjen\u00ed m\u016f\u017ee po\u0161kodit baterie LiFePO4, co\u017e vede ke sn\u00ed\u017een\u00ed kapacity a zkr\u00e1cen\u00ed \u017eivotnosti. P\u0159eb\u00edjen\u00ed m\u016f\u017ee zp\u016fsobit zm\u011bny ve slo\u017een\u00ed roztoku v elektrolytu, co\u017e vede k tvorb\u011b plynu a tepla, co\u017e vede k bobtn\u00e1n\u00ed baterie a jej\u00edmu vnit\u0159n\u00edmu po\u0161kozen\u00ed.<\/td>\nBattery University<\/td>\n<\/tr>\n
Po\u010det nab\u00edjec\u00edch\/vyb\u00edjec\u00edch cykl\u016f<\/td>\n\u010cast\u00e9 cykly nab\u00edjen\u00ed a vyb\u00edjen\u00ed urychluj\u00ed st\u00e1rnut\u00ed baterie a zkracuj\u00ed jej\u00ed \u017eivotnost.<\/td>\nMinisterstvo energetiky USA<\/td>\n<\/tr>\n
Teplota<\/td>\nVysok\u00e9 teploty urychluj\u00ed st\u00e1rnut\u00ed baterie a zkracuj\u00ed jej\u00ed \u017eivotnost. P\u0159i n\u00edzk\u00fdch teplot\u00e1ch je rovn\u011b\u017e ovlivn\u011bn v\u00fdkon baterie, co\u017e vede ke sn\u00ed\u017een\u00ed jej\u00ed kapacity.<\/td>\nBattery University; Ministerstvo energetiky USA<\/td>\n<\/tr>\n
Rychlost nab\u00edjen\u00ed<\/td>\nNadm\u011brn\u00e1 rychlost nab\u00edjen\u00ed m\u016f\u017ee zp\u016fsobit p\u0159eh\u0159\u00e1t\u00ed baterie, po\u0161kozen\u00ed elektrolytu a sn\u00ed\u017een\u00ed \u017eivotnosti baterie.<\/td>\nBattery University; Ministerstvo energetiky USA<\/td>\n<\/tr>\n
Hloubka vypou\u0161t\u011bn\u00ed<\/td>\nNadm\u011brn\u00e1 hloubka vybit\u00ed m\u00e1 na baterie LiFePO4 \u0161kodliv\u00fd vliv a sni\u017euje jejich \u017eivotnost.<\/td>\nBattery University<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n

Z\u00e1v\u011bre\u010dn\u00e9 my\u0161lenky<\/h2>\n

Akumul\u00e1tory LiFePO4 sice nejsou zpo\u010d\u00e1tku cenov\u011b nejdostupn\u011bj\u0161\u00ed variantou, ale z dlouhodob\u00e9ho hlediska nab\u00edzej\u00ed nejlep\u0161\u00ed hodnotu. Pou\u017eit\u00ed nap\u011b\u0165ov\u00e9ho diagramu LiFePO4 umo\u017e\u0148uje snadn\u00e9 sledov\u00e1n\u00ed stavu nabit\u00ed baterie (SoC).<\/p>","protected":false},"excerpt":{"rendered":"

Tabulka nap\u011bt\u00ed Lifepo4 12V 24V 48V a tabulka stavu nabit\u00ed LiFePO4 poskytuje ucelen\u00fd p\u0159ehled \u00farovn\u00ed nap\u011bt\u00ed odpov\u00eddaj\u00edc\u00edch r\u016fzn\u00fdm stav\u016fm nabit\u00ed baterie LiFePO4. Pochopen\u00ed t\u011bchto \u00farovn\u00ed nap\u011bt\u00ed je z\u00e1sadn\u00ed pro sledov\u00e1n\u00ed a \u0159\u00edzen\u00ed v\u00fdkonu baterie. Na z\u00e1klad\u011b t\u00e9to tabulky mohou u\u017eivatel\u00e9 p\u0159esn\u011b vyhodnotit stav nabit\u00ed sv\u00fdch bateri\u00ed LiFePO4 a...<\/p>","protected":false},"author":1,"featured_media":2945,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"rank_math_lock_modified_date":false,"_kad_post_transparent":"","_kad_post_title":"","_kad_post_layout":"","_kad_post_sidebar_id":"","_kad_post_content_style":"","_kad_post_vertical_padding":"","_kad_post_feature":"","_kad_post_feature_position":"","_kad_post_header":false,"_kad_post_footer":false,"footnotes":""},"categories":[26],"tags":[],"class_list":["post-2645","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-product-news"],"_links":{"self":[{"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/posts\/2645","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/comments?post=2645"}],"version-history":[{"count":5,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/posts\/2645\/revisions"}],"predecessor-version":[{"id":3862,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/posts\/2645\/revisions\/3862"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/media\/2945"}],"wp:attachment":[{"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/media?parent=2645"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/categories?post=2645"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.kmdpower.com\/cs\/wp-json\/wp\/v2\/tags?post=2645"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}