Standard Range

The table below lists our latest standard product range, as well as maximum discharge current thresholds & lead acid equivalent values for each product. The conversion factor we’ve used to calculate lead acid equivalent values is explained in brief below the table. Data sheets may be viewed by clicking on the product links below, and also saved as pdf documents from your web browser. Please contact Technical Support should you require additional information.
# 13V Series (V-Ah-kWh) Max. Current (A) Power @ Vnom (kW) Lead Acid Equivalent (50% DoD)
Continuous Burst (1 min) Peak (2 secs) Continuous Burst (1 min) Peak (2 secs) Vnom (V) Rating @C10 (Ah) Capacity (kWh)
1 BN13V-77-1k micro 100 120 150 1.3 1.56 1.95 12 214 2.57
2 BN13V-154-2k mini 100 120 150 1.3 1.56 1.95 12 428 5.14
3 BN13V-310-4k Classic 250 320 500 3.25 4.16 6.5 12 861 10.33
# 26V Series (V-Ah-kWh) Max. Current (A) Power @ Vnom (kW) Lead Acid Equivalent (50% DoD)
Continuous Burst (1 min) Peak (2 secs) Continuous Burst (1 min) Peak (2 secs) Nominal Voltage (V) Rating @C10 (Ah) Capacity (kWh)
4 BN26V-77-2k mini 100 120 150 2.6 3.12 3.9 24 214 5.14
5 BN26V-154-4k Classic 250 320 500 6.5 8.32 13 24 428 10.27
6 BN26V-310-8k 250 320 500 6.5 8.32 13 24 861 20.66
7 BN26V-460-12k 320 500 640 8.32 13 16.64 24 1278 30.67
8 BN26V-1540-40k 500 600 1000 13 15.6 26 24 4278 102.67
# 52V Series (V-Ah-kWh) Max. Current (A) Power @ Vnom (kW) Lead Acid Equivalent (50% DoD)
Continuous Burst (1 min) Peak (2 secs) Continuous Burst (1 min) Peak (2 secs) Nominal Voltage (V) Rating @C10 (Ah) Capacity (kWh)
9 BN52V-77-4k Classic 125 160 250 6.5 8.32 13 48 214 10.27
10 BN52V-154-8k 250 320 500 13 16.64 26 48 428 20.54
11 BN52V-230-12k 320 500 640 16.64 26 33.28 48 639 30.67
12 BN52V-310-16k 320 500 640 16.64 26 33.28 48 861 41.33
13 BN52V-460-24k 320 500 640 16.64 26 33.28 48 1278 61.34
14 BN52V-770-40k 500 600 1000 26 31.2 52 48 2139 102.67
15 BN52V-1250-65k 500 600 1000 26 31.2 52 48 3472 166.66
When sizing a LiFeYPO4 compared to a Lead Acid battery a 3 step adjustment for the rating has to be performed. (see BlueNova Product Launch Presentation for a detailed analysis) 123 Lead to Lithium Step 1: Adjust for DoD LiFeYPO4 DoD = 100% for 3600 cycles Lead Acid DoD = 50% for 1800 cycles Adjustment factor = 0.5 Step 2: Adjust for Discharge Efficiency LiFeYPO4 discharge efficiency >96% Lead Acid discharge efficiency < 70% Difference > 25% Adjustment factor = 0.75 Step 3: Adjust for terminal voltage LiFeYPO4 voltage = 52V Lead Acid voltage = 48V Adjustment factor = .95