Operating instructions

*The Actual charging rate depends upon the input/output voltage ratio. To obtain the charging capacity at any given

input voltage, use the following formula:

Charging Current = Input Volts/Output Volts x 40 For example, at 10.5VDC in and 13.6VDC out, the charging current

= 10.5/13.6 x 40 = 30.8 amps

* This is Analytic Systems’ suggested range. Please consult your battery manufacturer for their recommendations.

* Specications subjects to change without notice.

Designed and manufactured by: ANALYTIC SYSTEMS WARE (1993) LTD.

8128 River Way

Delta, BC V4G 1K5 Canada

p. 604.946.9981 f. 604.946.9983

tf. 800.668.3884 US/Canada

www.analyticsystems.com analyticinfo@analyticsystems.com Revised August 2014

Specications

Model BCD605-12-12 BCD605-12-24

Input Volts (DC) 10.5 - 14 10.5 - 28

Input Amps (max) 50

Output Volts (DC) 13.6 ± 0.5 V 27.2 ± 0.5 V

Charging Amps * 42 * 21

Output Crowbar Output Volts x (1.3 ± 1%)

Input Fuses AGC 30 x 2 Amp

Output Fuses AGC 25 x 2 Amp

Low Input Voltage Alarm 10.5 VDC

Low Output Voltage Alarm Output Voltage minus 2.5 VDC

Battey Banks 1 2 (Only if the input voltage < 15 Vdc)

Stages 2

Battery Size (Amp Hours)* 168 - 252 84 - 126

Transient Response < 1V for 15A Surge

Efciency > 85 % @ maximum output

Temperature Range -25 to +40 deg° C @ maximum output

Isolation

Any Input or Output to Case 500VDC

Input to Output Common Negative

Length 9.1 in / 23.1 cm

Width 7.8 in / 19.8 cm

Height 4.3 in / 10.8 cm

Clearance 1 Inch (2.5 cm) all around

Material Marine Grade Aluminum

Finish Black Powder Epoxy

Fastenings 18-8 Stainless

Weight 6.0 lb / 2.7 kg.