CAC ELECTRICAL SPECIFICATIONS

NOTE: Due to EMI’s ongoing product development program, all designs and specifications

are subject to change without notice.

CAC ELECTRICAL SPECIFICATIONS

Model #

Fan Motor

 

Elect Heat

Volts/HZ/PH

RLA

H.P.

K.W.

AMPS

Total

AMPS

Min Volt

M.C.A.

HACR BRKR

Small Cabinet 09/12

CAC09/12

208/230/60/1

0.35

1/10

 

0.4

197

0.5

15

CAC09/12

208/230/60/1

0.35

1/10

1.5

 

6.52

6.9

197

8.6

15

 

 

 

Medium Cabinet 18/24

 

 

 

 

 

CAC18/24

208/230/60/1

0.55

1/8

 

0.6

197

0.7

15

CAC18/24

208/230/60/1

0.55

1/8

3

 

13.04

13.6

197

17.0

20

 

 

 

Large Cabinet 30/36

 

 

 

 

 

CAC30/36

208/230/60/1

0.5,

0.5

1/10,

1/10

 

1.0

197

1.2

15

CAC30/36

208/230/60/1

0.5,

0.5

1/10,

1/10

5

 

21.74

22.7

197

28.3

30

CAC CASSETTE SYSTEM MATCHES

S1C

Side

Discharge

S2C

Side

Discharge

CAC

COOLING SYSTEMS WITH CASSETTE UNITS

 

Condenser

Cassette Btuh SEER SHR EER

Ref.

S1CA9

CACA12

9,000

13.0

.79

11.7

R22

S1CA2

CACA12

12,000

13.0

.72

12.2

R22

S1CA8

CACA24

18,000

13.0

.76

12.3

R22

S1CA4

CACA24

23.000

13.0

.67

11.8

R22

S1CA3

CACA36

30,000

13.5

.82

12.5

R22

S1CA6

CACA36

36,000

13.0

.74

12.6

R22

COOLING SYSTEMS WITH S2C SIDE DISCHARGE

 

Cassette

Condenser

Btuh

SEER

SHR

EER

Ref.

CACA12

S2CA99

18,000

13.0

.81

11.7

R22

CACA12

S2CA22

23,000

13.0

.74

11.8

R22

CACA12

S2CA92

21,000

13.0

.77

11.8

R22

CAC Cassette Evaporator

28

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Image 28
EMI manual CAC Electrical Specifications, CAC Cassette System Matches

CAC specifications

EMI CAC, or Electromagnetic Interference Common-mode Current, is a critical concern in electronic device design and operation. It refers to the unwanted electromagnetic energy that can disrupt the normal functioning of electronic circuits, particularly in complex systems. EMI can arise from various sources, including power lines, radio frequency transmitters, and even other components within the same device.

One of the main features of EMI CAC is its dual nature. It can be both a source of interference and a metric to assess the integrity of electronic systems. The impacts of EMI are far-reaching, affecting communication signals, power supply reliability, and overall device performance. As technology progresses and devices become more compact, the likelihood of EMI issues increases, making it essential for engineers to develop effective solutions.

Several technologies are employed to mitigate EMI CAC in electronic systems. Shielding is one of the most common methods, involving the use of conductive materials to block electromagnetic fields. This can take the form of metal enclosures or coatings that prevent the escape of emissions. Another strategy involves the use of filters, such as ferrite beads and capacitors, which can suppress common-mode currents before they enter the sensitive parts of a circuit.

The characteristics of EMI CAC vary depending on several factors, including frequency, amplitude, and the specific environment in which the electronic devices operate. High-frequency EMI is particularly challenging due to its ability to penetrate enclosures and disrupt signals. Additionally, common-mode noise can often appear in differential signals, exacerbating the situation and making detection more difficult.

Achieving EMC (Electromagnetic Compatibility) is a major goal for designers dealing with EMI CAC. This involves not only reducing emissions from devices but also improving their immunity to external sources of interference. Effective grounding techniques and careful layout planning are crucial in minimizing EMI effects.

In summary, EMI CAC represents a significant challenge in modern electronics, with a need for advanced solutions to ensure device performance and reliability. By understanding its features, employing effective technologies for mitigation, and addressing its characteristics, engineers can create robust designs that thrive in the increasingly complex electromagnetic landscape of today’s technological world.