Current from a C-rate (or C-rate from current)
API · /batterypack-api
Battery Pack API
salutare
3,638 Abbonati
Battery-Pack-Design-Mathematik als API, lokal und deterministisch berechnet – die Spannungs-, Kapazitäts-, Energie-, Strom- und Ladezeit-Zahlen, die ein EV-, E-Bike-, Solar- oder Robotik-Pack-Bauer für eine Batterie aufstellt. Der Konfigurations-Endpunkt wandelt eine Serien-Parallel-Zellenanordnung in das Pack um: Zellen in Reihe addieren ihre Spannungen (die Serienanzahl bestimmt die Packspannung) und Zellen parallel addieren ihre Amperestunden (die Parallelanzahl bestimmt die Kapazität), wobei die Energie in Wattstunden = Spannung × Kapazität – ein 13S4P-Pack aus 3,6 V / 3,5 Ah Zellen ergibt 46,8 V, 14 Ah und etwa 655 Wh aus 52 Zellen, und es meldet auch die Vollladespannung (Serie × 4,2 V für Li-Ion) zur Dimensionierung des Ladegeräts und BMS. Der C-Rate-Endpunkt bezieht Strom auf Kapazität in beide Richtungen – geben Sie eine C-Rate ein, um den Strom zu erhalten, oder einen Strom, um die C-Rate zu erhalten – weil 1C die gesamte Kapazität in einer Stunde lädt oder entlädt, also ein 14-Ah-Pack bei 2C 28 A ergibt, und es gibt die Leistung zurück, wenn Sie die Packspannung übergeben. Der Ladezeit-Endpunkt gibt die Zeit zum Laden zwischen zwei Ladezuständen aus dem Ladestrom an. Alles wird lokal und deterministisch berechnet, daher ist es sofort und privat. Ideal für EV- und E-Bike-Bauer, Solar- und Off-Grid-Speicherwerkzeuge, Robotik- und Drohnen-Packs sowie Batterie-Engineering-Apps. Reine lokale Berechnung – kein Key, kein Drittanbieter-Dienst, sofort. Pack-Design-Schätzungen – echte Zellen verjüngen sich beim Laden und sinken unter Last. 3 Berechnungs-Endpunkte. Für die Laufzeit unter Last verwenden Sie eine Battery-API; für EV-Ladung eine EV-Charging-API.
api.oanor.com/batterypack-api
API salute
salutare- Tempo di attività
- 100.00%
- Sondaggi del server · 24 ore su 24
- Latenza media
- 83 ms
- Sondaggi del server · 24 ore su 24
- Abbonati
- 3,638
- attiva
- Chiamate totali
- 4
- ultimi 7 giorni
Prezzi
Scegli un livello: fatturazione mensile, annullamento in qualsiasi momento.
Free
Gratis
- 6,900 chiamate/mese
- 2 richieste/secondo
- Tetto rigido (429 sopra la quota, nessuna eccedenza)
- 6.900 Aufrufe/Monat
- 2 req/sec
- Konfiguration + C-Rate + Ladezeit
- Keine Kreditkarte
Starter
€9.40 /mese
- 73,000 chiamate/mese
- 6 richieste/secondo
- Tetto rigido (429 sopra la quota, nessuna eccedenza)
- 73.000 Aufrufe/Monat
- 6 req/sec
- Energie, Leistung und Vollladespannung
- E-Mail-Support
Pro
€30.50 /mese
- 305,000 chiamate/mese
- 15 richieste/secondo
- Tetto rigido (429 sopra la quota, nessuna eccedenza)
- 305.000 Aufrufe/Monat
- 15 req/sec
- EV/E-Bike- und Speicherdesign-Pipelines
- Priority-Support
Mega
€94.00 /mese
- 1,460,000 chiamate/mese
- 40 richieste/secondo
- Tetto rigido (429 sopra la quota, nessuna eccedenza)
- 1.460.000 Aufrufe/Monat
- 40 req/sec
- Plattform- & OEM-Maßstab
- Dedizierte SLA
Costruito da
Correlato APIs
Altro APIs con tag sovrapposti.
Off-Grid Solar Sizing API
Off-Grid-Solar-System-Auslegungsmathematik als API, lokal und deterministisch berechnet – die Batteriebank-, Solararray- und Laderegler-Zahlen, mit denen ein Wohnmobil, eine Kabine, ein Boot oder ein netzunabhängiger Hausbesitzer ein System dimensioniert. Der Batteriebank-Endpunkt liefert den benötigten Speicher = (tägliche Last × Autonomietage) ÷ (Entladetiefe × Round-Trip-Effizienz), dann ÷ die Systemspannung für Amperestunden: Die Autonomie trägt Sie durch bewölkte Tage und die Entladetiefe-Grenze schützt die Zellen (Blei-Säure ~50 %, Lithium 80–100 %, weshalb Lithium-Banken kleiner ausfallen), also benötigt eine Last von 2 kWh/Tag bei 12 V mit 2 Autonomietagen, 50 % DoD und 85 % Effizienz etwa 785 Ah. Der Array-Endpunkt liefert die Panels = tägliche Energie ÷ (Spitzen-Sonnenstunden × Systemeffizienz), wobei die Spitzen-Sonnenstunden die tägliche Einstrahlung als äquivalente Volllast-Sonnenstunden sind (~3–6 je nach Ort und Jahreszeit) und die Effizienz Verluste durch Regler, Verkabelung, Hitze und Staub berücksichtigt – etwa 670 W für diese Last bei 4 Sonnenstunden und 75 %. Der Laderegler-Endpunkt dimensioniert den Regler = Array-Watt ÷ Batteriespannung × 1,25 Sicherheitsfaktor, also benötigt ein 700-W-Array an einer 12-V-Bank etwa einen 80-A-Regler. Alles wird lokal und deterministisch berechnet, daher ist es sofort und privat. Ideal für Solarinstallations- und DIY-Tools, Wohnmobil-/Marine-/Kabinen-Stromplaner und Rechner für erneuerbare Energien. Reine lokale Berechnung – kein Key, kein Drittanbieter-Service, sofort. Dimensionieren Sie für den schlechtesten Monat. 3 Compute-Endpunkte. Für Sonneneinstrahlung und Sonnenstunden verwenden Sie eine Solar-API; für Batterielaufzeit unter Last eine Batterie-API.
api.oanor.com/offgrid-api
Battery Calculator API
Battery and accumulator maths as an API, computed locally and deterministically from basic electrical relationships. The runtime endpoint estimates how long a battery will last under a given load — from the capacity (in mAh, Ah or Wh) and the load (in watts, or amps at a voltage), with adjustable depth-of-discharge and conversion efficiency — and reports the usable energy and the runtime in hours and minutes. The capacity endpoint converts a battery capacity between milliamp-hours, amp-hours, watt-hours, kilowatt-hours and joules at a given voltage. The pack endpoint builds a series/parallel cell pack (for example 3S2P): it returns the pack voltage, capacity and energy and the total cell count — series adds voltage, parallel adds capacity. The charge endpoint estimates the charge time from the capacity and the charge current (or a C-rate), with a charge efficiency and an optional from/to state-of-charge window. Everything is computed locally and deterministically, so it is instant and private. Real-world figures depend on temperature, age, C-rate and the discharge curve, so treat the results as estimates. Ideal for consumer-electronics and IoT tools, solar and off-grid sizing, drone and RC planning, UPS and backup-power sizing, and EV and battery-pack design. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 4 endpoints. This is battery maths; for Ohm's-law voltage/current/resistance use an electronics API.
api.oanor.com/battery-api
Photography Exposure API
Photographic exposure maths as an API, computed locally and deterministically — the exposure-value, equivalent-exposure and Sunny-16 numbers a photographer, camera-app developer or educator works the exposure triangle with. The exposure-value endpoint gives EV = log₂(aperture² ÷ shutter) and the ISO-100-normalised EV100 (subtracting log₂(ISO/100)) — every one-EV step is a stop, a doubling or halving of light — so bright sun reads about EV 15 and a typical interior EV 6–8, and equal-EV settings give the same exposure. The equivalent endpoint applies the reciprocity at the heart of the triangle: exposure ∝ shutter × ISO ÷ f-number², so when you close the aperture or drop the ISO it returns the new shutter that keeps the brightness constant — going from f/2.8 to f/5.6 needs four times the shutter time. The sunny16 endpoint gives the classic meterless rule: in bright sun shoot f/16 at about 1/ISO (1/125 s at ISO 100), opening up in stops for softer light — slight overcast f/11, overcast f/8, heavy overcast f/5.6, open shade f/4, and f/22 on snow or sand — solving the shutter for your chosen ISO and aperture. Everything is computed locally and deterministically, so it is instant and private. Ideal for camera and photography apps, exposure-calculator and teaching tools, and metering and automation utilities. Pure local computation — no key, no third-party service, instant. 3 compute endpoints. For depth of field and hyperfocal distance use a photography (optics) API.
api.oanor.com/exposure-api
EV Charging API
Electric-vehicle charging maths as an API, computed locally and deterministically — the three numbers every EV driver and charging app actually needs. The charge-time endpoint gives how long a session takes: from the battery size and the gap between the starting and target state of charge it works out the energy to add and the time at a given charger power and efficiency — a 60 kWh battery from 20 % to 80 % on a 7.2 kW home charger at 90 % efficiency takes about 5.6 hours, and it reminds you that DC fast charging slows sharply above 80 % so road trips should be planned around the fast part of the curve. The range-added endpoint turns a charging session into miles: from the charger power, the minutes plugged in and the car's miles per kWh it gives the energy and range added, plus the handy "miles per hour of charging" figure — a 7 kW home charger adds roughly 22 mi/hr, a 150 kW DC station hundreds. The cost endpoint gives what a charge costs, correctly billing the energy drawn from the grid (the energy to the battery divided by the charging efficiency) times the price per kWh, with the effective cost per usable kWh — home overnight rates make EV miles very cheap while DC fast chargers cost several times more. Everything is computed locally and deterministically, so it is instant and private. Ideal for EV apps, route and trip planners, fleet and charging-station tools, charge-cost calculators and dashboards. Pure local computation — no key, no third-party service, instant. Estimates — real DC charging tapers above 80 % and cold weather cuts range. 3 compute endpoints. For battery runtime use a battery API; for generic energy cost use an energy-cost API.
api.oanor.com/evcharging-api
Domande frequenti
Risposte rapide su prezzi, quote e integrazione.
Come ottengo una chiave API per Battery Pack API?
Registrati gratuitamente su oanor.com, genera una chiave API dalla dashboard sviluppatore e chiama Battery Pack API con l'header x-oanor-key. Nessuna carta di credito richiesta per il piano gratuito.
Qual è il limite di velocità di Battery Pack API?
Il piano gratuito consente 1 richiesta al secondo. I piani a pagamento arrivano fino a 50 richieste al secondo nel piano Mega. I limiti rigorosi restituiscono HTTP 429 oltre la quota — nessuna spesa imprevista.
Quanto costa Battery Pack API?
Battery Pack API ha un piano gratuito con 100 chiamate / mese. I piani a pagamento partono da €9.40 / mese con quote più alte e limiti di velocità più rapidi.
Posso cancellare l'abbonamento in qualsiasi momento?
Sì. I piani sono fatturati mensilmente e puoi cancellare in qualsiasi momento dalla dashboard di fatturazione. Nessun contratto a lungo termine e nessuna penale di cancellazione.
Battery Pack API è conforme al GDPR?
Tutte le richieste a Battery Pack API passano attraverso il nostro gateway in UE. La tua chiave upstream non lascia mai il nostro server e nessun dato personale viene condiviso con il fornitore upstream oltre alla richiesta inviata.
Scegli un endpoint dall'elenco a sinistra per visualizzarne i dettagli e provarlo.
Frammenti di codice
Iscriviti per ottenere una chiave API, quindi chiama qualsiasi percorso sotto il tuo slug.
curl https://api.oanor.com/batterypack-api/SOME_PATH \
-H "x-oanor-key: oanor_test_..."const res = await fetch("https://api.oanor.com/batterypack-api/SOME_PATH", {
headers: { "x-oanor-key": "oanor_test_..." }
});
const data = await res.json();$ch = curl_init("https://api.oanor.com/batterypack-api/SOME_PATH");
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
curl_setopt($ch, CURLOPT_HTTPHEADER, ["x-oanor-key: oanor_test_..."]);
$response = curl_exec($ch);import requests
r = requests.get(
"https://api.oanor.com/batterypack-api/SOME_PATH",
headers={"x-oanor-key": "oanor_test_..."},
)
print(r.json())Valutazioni
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