Page 10
Optima 320 Series
4
Specifications
Inlet Voltage Options
•
120 Vac, 50/60 Hz, single phase
•
100–240 Vac, 50/60 Hz, single phase
• All voltages are listed as nominal input sources.
Current Capacity Options
•
12 A continuous load / 15 A maximum (5-15P inlet)
• 16 A maximum (C20 inlet)
•
16 A continuous load / 20 A maximum (5-20P inlet)
•
24 A continuous load / 30 A maximum (L5-30P, L6-30P inlets)
•
Based on NEC regulations, traditional load ratings are de-rated to
80% for continuous duty. For example, a traditional 30 A maximum
rating is now interpreted and labeled as a 24 A continuous duty
rating. Optima current ratings are shown with continuous/maxi
-
mum rating values.
Overload Protection (standard)
• All models (except 320001) include UL 489 circuit breakers.
• All 120 Vac models (except 320001) use single-pole breakers.
• All 100-240 Vac models use double-pole breakers.
• All multi-breaker models are wired with one outlet group per
breaker.
Regulatory
•
All models certified to UL 62368-1.
• All models CE marked.
Environment
• Operating Temperature: 32°F to 122°F
•
Maximum Altitude: 6,562 feet
•
Relative Humidity: 5% to 85% non-condensing
Digital Meter (some units)
•
Volts RMS is measured ± 2%, updated every 15 s.
•
Amps RMS is measured ± 2%, updated every 15 s.
Surge Suppression (standard)
• All models (except 320001) include a varistor.
• 120 Vac models (except 320001) have a single-pulse energy
rating of 200 joules.
•
240 Vac models have a single-pulse energy rating of 350 joules.
• All models (except 320001) have a peak surge current rating of
10,000 A for a single pulse 8x20µs wave.
EMI Filter (standard)
•
All models (except 320001) include an EMI filter.
•
All models have ≤ 0.6 mA leakage.
Optima 3
ON
OFF
19.00
17.12
1.72
4.72 (320001)
7.87 (all others)
Weight varies slightly by model up to approximately 6.5 lbs.
Model 320002 shown.
Dimensions are typical of all models.
1.25
100
90
80
70
60
50
40
30
20
10
0
0.1
1
10
100
300
Frequency in MHz
db
Typical Insertion Loss
15 A Units
20 A Units
Common Mode
Differential Mode
Common Mode
Differential Mode