MX100QP Multi-Range DC Power Supply, Quad Output

The P-models, like the MX100QP in the MX series, offer full remote control and read back using USB, RS-232, GPIB or LAN (compliant with LXI). All interfaces are at ground potential and opto-isolated form the output terminals. On these P versions, output and remote sense terminals are mounted both on the front and rear panels.

MX Series - Full-Performance Outputs:
The MX100Q differs from most other multi-output power supplies in having four outputs of equal power, each with the ability to provide 35V at 3A. Each output features CV or CI operation, simultaneous high-resolution metering, switchable remote sense, and an individual output switch.

Features:

• Four high-performance outputs of 105 watts each 4 x (0 to 35V at 0 to 3A)
• Total power of 420 watts in a compact package
• Range switching gives up to 70 volts and up to 6 amps
• Many range combinations for maximum flexibility
• Up to 210 watts from a single output
• High-setting resolution of up to 1mV and 0.1mA and up to 5 digit setting and metering for voltage and current
• 50 setting memories per output plus 50 linked memories
• Numeric or spin-wheel control of all parameters

Multiple Ranges - Power Sharing:
Outputs can also be combined internally to provide up to 210 watts of power as either 35V/6A or 70V/3A from a single output.

Mixed Mode Regulation:
To provide its impressive power density the MX series combines high frequency switch-mode pre-regulation with linear post regulation to offer performance that comes close to that of an all-linear design. Excellent line and load regulation is matched by low noise and good transient response.

Low Noise Cooling:
The MX series uses an intelligent fan controller which monitors both ambient temperature and power loading.

Bench or Rack Mounting:
For quad output units, the case is three quarter rack width by 3U high. Front input ventilation ensures that no additional space is needed top or bottom.

Typical Applications:

• Medium-to-high power bench-top applications requiring multiple outputs
• Situations where voltage and current requirements may vary widely between projects
• Powering rail sensitive circuits using the on/off synchronism and sequencing
• Repetitive testing applications requiring multi-output settings memories
• High-density system applications requiring multiple outputs from limited rack space
• Remote control applications where bus interface requirements may change