MAX POWER FAMILY SWITCHMODE POWER SUPPLY SPECIFICATIONS

Specifications:

1. General Character:
The model WSX600 and WSX800 series power supplies are designed for use in medical, information technology or laboratory  environments. They provide a "universal"  AC input operation. Fan cooling is provided to allow higher power densities than is possible without fan cooling.

1.1 The model number suffix "M", indicates that a specific model is for use in a medical environment.

2. Electrical Specifications:

2.1 Input: 100-250Vac     50/60Hz
(90-264 Vac, 47-63 Hz is the tested operational range, 100-250 Vac range is marked on product to comply with safety standards.) Available as either a Class 1 or Class 2 input configuration, a "D" model number suffix indicates a Class 2 input configuration.

2.1.1 Input Fuses:
A current fuse is incorporated in each of the 2 AC lines, slo blo type fuse element, configured with integral welded on leads.

2.1.2 Input Switch:
An optional input switch may be provided if required. A "I" and a "O" will be marked on it, or next to it.

2.2 Output:  
Nominal output power: WSX600 family = 150W, WSX800 family = 180W

( Optional model number suffix letter "M", indicates medical usage. )

WSX612 
WSX613 
WSX614 
WSX615
WSX616 

WSX618 
WSX620 
WSX622
WSX624 

WSX626 
WSX628 
WSX630 
WSX632 
WSX636 
WSX640 
WSX644 
WSX648 
12Vdc 12.5A
13Vdc 11.5A 
14Vdc 10.7A
15Vdc 10.0A
16Vdc 9.4A
18Vdc 8.3A
20Vdc 7.5A
22Vdc 6.8A
24Vdc 6.25A
26Vdc 5.8A
28Vdc 5.4A
30Vdc 5.0A
32Vdc 4.7A
36Vdc 4.2A
40Vdc 3.75A
44Vdc 3.4A
48Vdc 3.1A
        WSX812 
WSX813 
WSX814 
WSX815
WSX816 

WSX818 
WSX820 
WSX822 
WSX824 

WSX826 
WSX828 
WSX830 
WSX832 
WSX836 
WSX840 
WSX844 
WSX848     
12Vdc 15A
13Vdc 13.8A 
14Vdc 12.8A
15Vdc 12A
16Vdc 11.2A
18Vdc 10A
20Vdc 9A
22Vdc 8.2
24Vdc 7.5A

26Vdc 6.9A
28Vdc 6.4A
30Vdc 6A
32Vdc 5.6A
36Vdc 5A
40Vdc 4.5A
44Vdc 4.1A
48Vdc 3.75A  

2.3 Output Variance, Voltage:
+/- 5% at Full Load, any input voltage or environmental condition

2.4 Load Regulation, Voltage:
Not to exceed 800 millivolts for 100% to 0% load change, varies due to output cord selected, remote sense option available, contact factory.

2.5 Maximum Output Ripple:
         12 - 24V: 100mVp-p
         24.1 - 36V: 150mVp-p
         36.1 - 48V: 200mVp-p

2.6 Protection Circuitry: The output is protected from short circuit and prolonged overload. The internal circuitry is protected against a locked fan condition.

3. Mechanical Specifications:

3.1 Enclosure Dimensions:
WSX600 family: 6.5"L X 3.75"W X 2.56"H inches.
WSX800 family: Two enclosure options, Long = 7.4"L X 3.75"W X 2.56"H, Short = 6.5"L X 3.75"W X 2.56"H inches.
Enclosure outline drawings available upon request.

3.2 Weight: Maximum weight, for power supply without the detachable input cordset is 2.05 pounds (0.93 kg).

3.3 Input Configuration: Male IEC320 power inlet, 2 or 3 conductor option. Optional input connector lock available.

3.4 Output Configuration:   6 foot length standard, various conductor arrangements and jacket material selections are available. Cordsets may be terminated with various dc connectors, custom output connector assemblies are available, contact customer service for details. Standard in-stock cordsets can be seen in the Jerome Industries engineering manual / catalog on pages 10 and 11.

4. Environmental:
 

4.1 Operating :

Temperature: 0 to 40C 
Humidity: 10% to 95% non-condensing
Atmospheric pressure: 70 to 106 kPa

Please contact customer service if a
wider operating range is required.

4.2 Storage :

Temperature: -40 to 75C
Humidity: 10% to 95% non-condensing
Atmosperic pressure: 50 to 106 kPa

4.3 Liquid Ingress:

Spill-proof per IEC60601-1 clause 44.3, vertical drip proof per IEC60529.

4.4 Ingress Protection Level: IPX1

4.5 Audible noise:
52 dBA maximum white noise measured 12 inches from any side. Virtually no detectable narrowband sound apparent.

4.6 Fan:
Fan will operate at normal speed from 100% load to approximately (10 to 30)% load.
From no load to approximately (10 to 30)% load fan is stopped.

5. Regulatory Compliance

5.1 Safety Compliance:
These power supplies have been certified by the following safety agencies to the standards shown:
 
5.1.1 Single Output Models
These power supplies have been certified by the following safety agencies to the standards shown:

Regulatory Agency

UL
 
 UL testing and 
evaluation of 
Canadian 
requirements.  

 

TUV
 

Standard

UL60601-1
UL60950-1 


C22.2#601-1

C22.2#60950-1



EN60601-1

EN60950-1 

Classification

Isolation, BF
SELV


Isolation, BF

SELV



Isolation, BF

SELV

File#

E160908
E148586


E160908

E148586



B060324072023

B060324072023

5.2 Power supplies shipped to European market need to bear the CE mark. Jerome Industries can supply a CE mark under the following standards:
 
Standard

EN60601-1
EN60950-1
Classification

Isolation, BF
SELV

5.3 Electro Magnetic Compatibility:
Meets requirements of European EMC directive and FCC requirements.

5.3.1 Medical:
Meets EMC requirements from EN60601-1-2 (EMC requirements for ElectroMedical Equipment).

5.3.2 Emissions:
Meets level B requirements of FCC 47 CFR part 15 and CISPR11 (EN55011) and CISPR22 (EN55022), EN61000-6-3 (light industrial) and line harmonic emissions EN61000-3-1.

5.3.3 Immunity:
Meets CISPR24 (EN55024), EN61326 and EN61000-6-3.

5.3.4 EMC Responsibility:
It is the responsibility of the OEM customer to verify EMC compliance with his system before marketing the end-use system.
 

 Notes:

1) Emissions are monitored on all prototypes using a spectrum analyzer with peak, quasi peak and average mode power measurement capabilities. Conducted emissions are recorded for both 120 Vac and 230 Vac input conditions. A correlated radiated emissions program is used in order to economically verify the radiated emissions from a specific model.
The emissions program works from the premises of the power supply acting as a dipole antenna radiator, one side of the dipole antenna being the input cord, the other side being the output cord. Levels are monitored on the cords by a common mode current sensing device operating into a spectrum analyzer. Correlation factors have been established which are based upon the difference between radiated field measurements made at independent labs and Jerome Industries lab common mode current measurements on the cords of reference power supplies.
Using this technique, Jerome Industries has experienced a 100% passing rate for prototypes submitted for radiated field emissions testing at independent labs.

OEM System Engineer Instructions

*  The EMC characteristics of the final system comprised of both the power supply and the main system must be evaluated to the applicable EMC environment regulations.

*  Should a power supply need repair, please return it along with a note describing the particular problem to:

  Jerome Industries Inc.
  730 Division St.
  Elizabeth, NJ 07201
  U.S.A.

*  Circuit operation block diagrams, isolation diagrams, and a list of safety critical components will be available on request to appropriately qualified personnel.

* All products which contain double input fuses shall contain the following text in the system installation manual:
"CAUTION: DOUBLE POLE/NEUTRAL FUSING"

Medical Products

*  When used with medical products the Instruction Manual prepared for the end use product must incorporate at a minimum, the following power supply warning notices:
 

 a) Warning: When cleaning the power unit, use a cloth dampened with cleaning alcohol on the outside   of the enclosure only. Do not immerse product in water or a safety hazard could arise during use.
 b) Warning: Do not use this power unit in the presence of flammable anesthetics.
 

*  Periodic leakage current testing should be done on the combined power supply and end-use system on a yearly basis when used in a hospital environment where such test equipment is commonly available.


Appendix A


Class 1
WSX600/800 Family Typical Leakage Current
Measurements per IEC60601-1 Clause 19

  NC SFC
Earth Leakage Current 234 420
Enclosure Leakage Current 0.9 1.7
Patient Leakage Current
(to output negative cord connection)
15 107
Patient Leakage Current, Mains Voltage Applied (to output negative cord connection) N/A 383

 

 

Class 2
WSX600/800 Family Typical Leakage Current
Measurements per IEC60601-1 Clause 19

  NC SFC
Enclosure Leakage Current 1.7 1.7
Patient Leakage Current
(to output negative cord connection)
74 114
Patient Leakage Current, Mains Voltage Applied (to output negative cord connection) N/A 195

 

Notes:
1) Measurement data in microamps.
2) Measurements made with 275 Vac, 60 Hz input.
3) Worst case measurement condition, including humidity preconditioning.
4) Reduced leakage designs available (including CF category compliant designs), contact factory for availability.
5) WSX600/800 Class 1 models may be optionally built with Class 2 EMI filter components which causes a
significant reduction in leakage current.

 

Back Home