CarNetix CNX P2140 Power supply, CNX PSUmoni2140 Power supply monitor User’s Guide

CarNetix CNX P2140 Power supply, CNX PSUmoni2140 Power supply monitor User’s Guide

Below you will find brief information for Power supply CNX P2140. This powerful and intelligent regulator is designed for use in CarPC applications. The CNX-P2140 features USB connectivity to the PSUmoni(TM) power supply monitor application, which allows real-time monitoring of the power supply. The CNX-P2140 also includes a Pulse Start feature, which allows you to remotely start and stop the PSU.

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CNX P2140 User’s Guide - CarNetix | Manualzz

PRELIMINARY

CNX-P2140 User’s Guide

V1.1

November 28, 2006

CarNetix CNX-P2140 User’s Guide - Version 1.1

Summary of Notices & Disclaimers

CarNetix limited warranty is contingent upon proper and normal use and installation, and does not cover damage due to external causes, including but not limited to, accident, problems with electrical power, improper installation techniques or materials, liquids, chemicals, oxidation, corrosion, exposure to the elements, servicing not authorized by CarNetix, usage not in accordance with product instructions or specifications, failure to perform required preventive maintenance, and problems caused by use of parts and components not supplied by CarNetix.

CarNetix makes no express warranties or conditions beyond those stated in this warranty statement. CarNetix disclaims all other warranties and conditions express or implied, including without limitation implied warranties and conditions of merchantability and fitness for a particular purpose. Some states do not allow limitations on how long an implied warranty lasts, so the above limitation may not apply to you.

CarNetix does not accept liability beyond the remedies set forth in this warranty statement or liability for incidental or consequential damages, including without limitation any liability for products not being available for use or for lost data or software.

CarNetix full warranty and return policies are stated in Section 5.0 at the end of this document.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

1.0 Introduction................................................................................................................... 4

2.0 Specifications................................................................................................................ 6

2.1 CNX-P2140 Specifications....................................................................................... 6

2.2 CNX-PSUmoni2140 Specifications.......................................................................... 7

3.0 Jumper Settings........................................................................................................... 10

4.0 Current Limits............................................................................................................. 12

5.0 Applications Wiring Diagrams ................................................................................... 13

5.1 J1 (Input Power Connector) Pin Functions............................................................. 13

5.2 J2 (Output Power Connector) Pin Functions .......................................................... 14

5.3 Mac mini Application Diagrams............................................................................. 15

5.4 AOpen Pandora Application Diagrams .................................................................. 17

5.5 Xenarc Application Diagrams................................................................................. 19

5.6 Installing a CNX-P5V in the CNX-P2140.............................................................. 20

6.0 Pulse Start Feature ...................................................................................................... 21

6.1 Pulse Start Connections .......................................................................................... 21

6.2 Pulse Start Operation .............................................................................................. 21

6.2.1 What is a pulse? ............................................................................................... 21

6.2.2 Starting the PSU with a pulse .......................................................................... 22

6.2.3 Stopping the PSU with a pulse......................................................................... 22

6.2.4 Prolonging the Shutdown Delay State ............................................................. 22

6.2.5 Shutting down the PSU with double pulses..................................................... 22

6.2.6 Ignition Override.............................................................................................. 22

7.0 Conditions of Use ....................................................................................................... 23

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CarNetix CNX-P2140 User’s Guide - Version 1.1

1.0 Introduction

The CNX-P2140 is the most powerful and intelligent regulator ever built for the CarPC market. USB connectivity to the PSUmoni(TM) power supply monitor application takes the guesswork out of installation, setup, and operation. Real-time gauges show exactly what's going on under the hood! "Soft jumpers" let you tweak any parameter to your heart's content. Firmware updates via the USB port allow you to keep your product updated with the latest firmware with no special programming hardware required.

There is not other product like it on the market!

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+12V or +24V

System/Battery

Ignition

Pulse Start

CarNetix CNX-P2140 User’s Guide - Version 1.1

CNX-P1240

Primary Output

+12V, +18.5V, or +20V

Secondary Output

+5V or +12V

Optional P5V 3rd output

+5V or +12V

Delay On (Amp Control)

ACPI (relay) iSense (Mac mini)

USB

PSUmoni

PC Application

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CarNetix CNX-P2140 User’s Guide - Version 1.1

2.0 Specifications

2.1 CNX-P2140 Specifications

Input Voltage Range

Input Voltage Range Selection

Primary Output Voltage

Secondary Output Voltage

+7.5VDC to +34VDC (ie +12VDC or +24VDC Systems)

Survives engine cranking

Fully Automatic (no jumpering requried)

+12V, +18.5V, +20V Jumper Selectable

+5V, +12V, +13.2V jumper selectable

Battery

Voltage

Primary

Output

Voltage

Max

Primary

Current

Primary

Output

Power

Secondary

Output

Voltage

Max Secondary

Output Current

Maximum Ourput Currents *

(* these ratings depend upon jumper config-

12V 12V 11A 132W 5V urations of the primary and secondary

3A

12V 11A 132W 12V

12V 20V 7.5A

150W 5V

N/A

3A

12V 20V 7.5A 150W 12V

24V 12V 10A 120W 5V

24V 12V 10A 120W 12V

147W

-

165W

3A 36W 186W

3A

Secondary

Output

Power

15W

-

15W

36W

Total

Output

Power

3A 15W 135W

156W

Overall Operating Efficiency

Idle Current

Operating Temperature Range

Thermal Protection

Jumpers & Configurations

Cooling Fan

Startup/Shutdown Controller (SSC)

Processor

Firmware Upgrade

SSC Interface

24V 20V 11A 220W 5V 3A 15W 235W

24V 20V 11A

~93% at loads > 2 amps

220W

~60mA

12V 3A 36W

256W

-10°C to +60°C

Automatic shutdown @ > +60°C

"Soft Jumpers" for many functions and delays (see PSUmoni specs for details)

Auto-sensing for +12V or +24V system (no jumpering required)

Can be used without fan for low power applications (soft jumper selectable)

Intelligent state-machine based SSC

PIC 18F4455 flash microprocessor with full speed USB

Via USB port. Download firmware upgrades from website

Full Speed USB 2.0

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SSC Application Interface

Input/Output Power Cables

Chassis Dimensions

CarNetix CNX-P2140 User’s Guide - Version 1.1

PSUmoni 2140 Windows application

Pin compatbile with standard CNX-P2140, MacPac, AOPak, and XSC8 power cable kits

4.6" x 3.25" x 1.75" (L x W x H) or 117mm x 83mm x 45mm.

2.2 CNX-PSUmoni2140 Specifications

Figure 2 PSUmoni Screen Shot

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CarNetix CNX-P2140 User’s Guide - Version 1.1

Connectivity with CNX-P2140

Analog Monitor Points

Full speed USB 2.0

Battery Voltage (Auto ranging 12V/24V systems)

Battery Current

Input Power

Primary Output Voltage (Auto ranging +12/+18.5/+20V scale)

Primary Output Current

Primary Output Power

Secondary Output Voltage (Auto ranging +12/+5V scale)

Secondary Output Current

Secondary Output Power

Total Output Power (Primary + Secondary)

Overall Efficiency (Total Output Power/Total Input

Power)

Temperature (0-60°C)

Digital Monitor Points Battery OK

Primary Output Current OK

Secondary Output Current OK

Machine State Indicator

State Timers

Ignition Status (On/Off)

Pulse Start Status (On/Off)

Fan Status (Ok/Fault)

Delay ON Status (On/Off)

ACPI (power button) Status (On/Off)

Power Good Status (Regulator On/Off)

PS_ON Status (Regulator Control On/Off)

USB Connection Status (Connected/Not Connected)

Shutdown Delay Time (Minutes 0-60, Hours 0-60)

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CarNetix CNX-P2140 User’s Guide - Version 1.1

Control Sliders

Deadman Timer (0-120 Hours)

DelayON Timer (0-60 Seconds)

Bootup Lockout Timer (0-120 Seconds)

Shutdown Lockout timer (0-120 Seconds)

Soft Jumpers

Low Battery Detection Threshold (9V - 24V)

Standby Mode (On/Off)

Secondary Output ON (Ignition/DLYON)

Output

Fan (Enable/Disable)

Firmware Upgrades Firmware upgrades applied to P2140 via USB port

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CarNetix CNX-P2140 User’s Guide - Version 1.1

3.0 Jumper Settings

It is important that you properly set the hardware jumpers before applying power to the

P2140. Please select the following:

• Primary output voltage (JP1) o

Selectable for +12V, +18.5V, or +20V output

• Secondary output voltage (JP2) o

Selectable for +5V or +12V output

• JP3 Option Jumpers o

Various options utilize the JP3 jumper header. These include:

ƒ Pins 1-2: Pulse Start input connection (see section XXX)

ƒ Pins 3-4, and 5-6 are unused at this time

ƒ Pins 7-8: Programming jumper used to upload new firmware (see section XXX)

ƒ Pins 9-10: Used to control the optional P5V regulator (see section

XXX)

• Input to Secondary output regulator (JP4) o

See JP4 configuration matrix for proper settings. Depends on battery voltage, primary output voltage, and secondary output voltage

• PC or Mac operation (JP5) o

This sets the dual-function iSense/ACPI- output pin for the appropriate functionality. If using a PC, this setting completes the ACPI relay output circuit. If using a Mac mini, this output connects the iSense signal to the

Mac.

• Mac mini classic or Intel Mac mini operation (JP5) o

This jumper selects either a 6.8k resistor (Mac mini classic) or a 3.4k resistor (Intel Mac mini) for iSense.

• ACPI Isolated Relay Output (JP6) o

This output is provided so that who were previously using a P1900 (or

Xenarc PC-PSU19) do not have to change their existing wiring. JP6 provides similar functionality to JP3 on the P1900 (ie isolated relay output for ACPI signal).

Figure 2 below shows the locations and settings for the various hardware configuration jumpers.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

Figure 3 P2140 Jumper Locations and Settings

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CarNetix CNX-P2140 User’s Guide - Version 1.1

4.0 Current Limits

The flexibility of the P2140 allows the user to select several different operating configurations. Since the battery input can be either +12V or +24V, and the primary output can be +12V, +18.5V, or +20V, and the secondary output can be either +5V or

+12V, the P2140 has various current limits depending upon the jumper settings. These current limits are summarized in the table below. If these current limits are exceeded, the

P2140 will go into forced shutdown.

In the case where the input to the secondary output regulator is fed from the output of the primary regulator, the current limit is the sum of BOTH the primary and secondary currents. Theses configurations are shaded in the table below. The combined maximum current limit is shown in the right hand column.

(Note: in the table below V(pri) =20 refers to either +18.5V or +20V operation)

P(pri) V(sec) P(sec) sec max i(pri)+I(sec)

12 12 11 132 5 3 15 147

12 12 11 132 12 N/A - - N/A N/A

12 20 7.5 150 5 3 15 165

24 12 10 120 5 3 15 pri

7.5

10

24 20 11 220 5 3 15 pri 11

Table 1 P2140 Current Limits

In addition to the current limits above, when in standby, the P2140 will limit both primary and secondary output currents to .5 amps each. If the current of either output exceeds .5 amps, the P2140 will automatically exit standby mode and cut power to both outputs.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

5.0 Applications Wiring Diagrams

5.1 J1 (Input Power Connector) Pin Functions

The connector comes with “pigtails”, or short lengths of wire that allow you to splice longer runs of larger gauge wire from your battery and ground connections.

Pin Wire Function

1 Black

2 Blue

3 Red

4 Black

Ground

Pulse Start Input (See Section x)

+12V Battery Input

Ground

5 Yellow

6 Red +12V Battery Input

Table 2 – P2140 J1 Pin Assignments

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CarNetix CNX-P2140 User’s Guide - Version 1.1

5.2 J2 (Output Power Connector) Pin Functions

The connector comes with “pigtails”, or short lengths of wire that allow you to splice longer runs of larger gauge to your computer & peripherals.

Pin Wire Function

1

2

Red

Black

Primary Output 1

Ground 1

3 White

Comment

4 Blue

5

6

Red

Black

DLYON

Primary Output 2

Ground 2 depends on jumper setting

7 Brown* (may look purple)

Secondary Output

8 Green ACPI+

Table 3 – P2140 J2 Pin Assignments

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CarNetix CNX-P2140 User’s Guide - Version 1.1

5.3 Mac mini Application Diagrams

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CarNetix CNX-P2140 User’s Guide - Version 1.1

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CarNetix CNX-P2140 User’s Guide - Version 1.1

5.4 AOpen Pandora Application Diagrams

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CarNetix CNX-P2140 User’s Guide - Version 1.1

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CarNetix CNX-P2140 User’s Guide - Version 1.1

5.5 Xenarc Application Diagrams

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CarNetix CNX-P2140 User’s Guide - Version 1.1

5.6 Installing a CNX-P5V in the CNX-P2140

The CNX-P5V can be added to the P2140 to provide a third regulated output. This output is typically used to power +5V USB devices, while the P2140 primary output powers the computer (+19V), and the secondary output powers your screen (+12V).

The CNX-P5V is installed into the P2140 exactly the same way as described in the P5V

Installation Manual for the P1900, except for the naming of the jumpers. When following the installation instructions in the P5V manual, make the following jumper name changes.

Function P5V Wire color

Battery Input Red/Black

P1900 Jumper

JP5 (pins 1&2)

P2140 Jumper

JP4 (pins 1&2)

On/Off Control Green/Black JP4 (pins 2&3) JP3 (pins 9&10)

See Section 3 for the location of JP3 & JP4 on the P2140.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

6.0 Pulse Start Feature

The CNX-P2140 includes a feature that allows you to remotely start and stop the PSU.

This feature is called “Pulse Start”. This feature would normally be used in conjunction with a wireless device such as a car alarm with auxiliary inputs/outputs or a WiFi device with Wake-On-LAN (WOL) features.

6.1 Pulse Start Connections

The Pulse Start input can either be an externally applied voltage (ie +5v or +12V) pulse, or a momentary relay contact closure. The externally applied voltage pulse is connected to Pin 1 of J1 using the Blue wire. The momentary relay contact closure is connected to

Pins 1&2 of JP1 (see Section 2.2 for location). You can use either or both of these connections to start/stop the PSU.

6.2 Pulse Start Operation

6.2.1 What is a pulse?

Voltage Pulse on Pin 1 of J1

When connecting to Pin 1 of J2, the “pulse” must be a voltage that transitions from 0V to

+V, and then transitions back to 0V. The SSC will wait (hang) if the voltage stays high without going back to 0V after the initial transition from 0V to +V.

The value of the +V can be any voltage from approximately +2V to +20V. Typical voltages are +5V or +12V. The value of 0V must be below +.2V or open circuit (ie you could drive this input with a relay that momentarily connects to a +12V source and then provides an open circuit).

The current required to drive this input is very low (milliamps).

Contact Closure Pulse on Pins 1&2 of JP1

When connecting to Pins 1&2 of JP1, the “pulse” must be a low resistance metallic contact closure (ie relay) that transitions from OPEN to CLOSED, and then back to

OPEN. The SSC will wait (hang) if the contact closure remains CLOSED after the initial transition from OPEN to CLOSED.

The current passing through this relay is very small (milliamps) so a low power relay can be used.

Pulse Width

The pulse width can be any value from a minimum of approximately 100mSec to several seconds. As mentioned above, if the pulse is very long the SSC will wait for the transition back to the normal state before continuing.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

6.2.2 Starting the PSU with a pulse

When the PSU is in Idle State and an externally applied pulse is applied to the Pulse Start input, the PSU will power up normally, as it would if the Ignition line had gone high.

During the Bootup Lockout State any input pulse is ignored.

6.2.3 Stopping the PSU with a pulse

After the normal power up sequence, and while in Runs State, the SSC monitors the

Pulse Start input for a shutdown pulse. If a single shutdown pulse is sensed, the PSU goes into the Shutdown Delay State. However, if control has been passed to the Ignition line

(see Ignition Override below) the Pulse Start input is ignored.

6.2.4 Prolonging the Shutdown Delay State

If, while in the Shutdown Delay State, a single pulse is detected, the Shutdown Delay is restarted at its original value in order to prolong the Shutdown Delay. This is useful for occasionally downloading large files that would take longer than the normal Shutdown

Delay time.

Once the Shutdown Delay has timed out, the PSU enters the Shutdown Lockout State. At this point the SSC ignores any pulse input until the PSU enters the Idle State.

6.2.5 Shutting down the PSU with double pulses

If two pulses are detected within a 5 second window during the Shutdown Delay State the

PSU will skip any remaining Shutdown Delay Time and immediately enter the Shutdown

Lockout Sequence. This feature is useful for shutting down the CarPC when your file transfer process is completed.

6.2.6 Ignition Override

If, after the PSU has been started by a pulse, the Ignition is turned on, control is passed to the Ignition line. Once the Ignition line has gained control of the SSC it will be able to shutdown the PSU as if it had initially started it. This feature is useful when you wish to remotely start the CarPC with your wireless device, but then get into your car and drive.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

7.0 Conditions of Use

90-Day Limited Warranty

CarNetix warrants that the products it manufactures will be free from defects in materials and workmanship. The warranty term for all products is 90 days beginning on the date of invoice. During the warranty period CarNetix will repair or replace, at our discretion, products covered under this limited warranty that are returned to CarNetix using a valid RMA number.

Service & Support

CarNetix provides a free on-line technical support forum for diagnosing hardware problems with your system throughout the warranty period. Free technical support service is limited to configuration and operation of hardware sold by CarNetix.

Returning Merchandise

If we determine that a part is defective a replacement can be after Purchaser obtains a Return

Merchandise Authorization (RMA) number. Purchaser must first contact us to obtain an RMA number before attempting to return any part. Parts returned without first obtaining an RMA number shall not be accepted, repaired, or replaced.

To obtain an RMA number, Purchaser must follow these procedures

1. Email us at [email protected]

to receive your RMA number;

2. The RMA Number must be used within TEN (10) DAYS, or it will not be honored;

3. The RMA Number MUST BE SHOWN CLEARLY ON YOUR SHIPPING LABEL;

4. CarNetix must receive all Returns before a replacement will be sent, unless a valid credit card number has been given to secure payment for the replacement part;

5. Include a copy of the Invoice on which the product(s) was shipped to you;

6. All RMA Returns must be shipped to CarNetix with freight PREPAID. Any Returns with freight collect or COD will be refused and returned to you;

7. CarNetix must RECEIVE all returned goods within the warranty period.

CarNetix can send the replacement part before you return the defective part if you provide us with your valid credit card number to cover the cost of the replacement. You must return the defective part within fourteen (14) days from date of delivery of the new part, or your credit card will be charged for the cost of the replacement part. Please retain your shipping information, including tracking number. This will serve as your proof of return. A replacement part will be sent to you after we receive the defective part from you if you cannot provide us with a valid credit card number.

Limitation Of Liability

This limited warranty is contingent upon proper and normal use and installation, and does not cover damage due to external causes, including but not limited to, accident, problems with electrical power, improper installation techniques or materials, liquids, chemicals, oxidation, corrosion, exposure to the elements, servicing not authorized by CarNetix, usage not in accordance with product instructions or specifications, failure to perform required preventive maintenance, and problems caused by use of parts and components not supplied by CarNetix.

CarNetix makes no express warranties or conditions beyond those stated in this warranty statement.

CarNetix disclaims all other warranties and conditions, express or implied, including without limitation implied warranties and conditions of merchantability and fitness for a particular purpose.

Some states do not allow limitations on how long an implied warranty lasts, so the above limitation may not apply to you.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

CarNetix does not accept liability beyond the remedies set forth in this warranty statement or liability for incidental or consequential damages, including without limitation any liability for products not being available for use or for lost data or software.

S hipping & Returns

Shipping Locations and Methods

We ship both domestically (via UPS) and to most international locations (via USPS). Shipping charges do not include import taxes or customs fees. We are not responsible for loss or damage to uninsured packages. If you have a special shipping requirement or request, please notify us when you place your order or via email at [email protected].

Return Shipping Policy

The Purchaser must pre-pay shipping and costs including insurance for any defective system or parts returned under our warranty. CarNetix shall not be liable for risk of loss or damage during shipment of your returned system or parts if you fail to insure the shipment. All products must be shipped back to

CarNetix in their original or equivalent packaging. CarNetix will ship the repaired or replacement product(s) to Purchaser via Ground Service (freight prepaid) if you use an address in the continental

United States. For shipments to other locations, Purchaser must pre-pay any shipping charges, insurance, export taxes, custom duties and taxes including VAT taxes, or any other charges associated with transportation of your CarNetix products. Purchaser assumes the risk of loss. CarNetix shall not be responsible for failure of the delivery service to make on-time delivery. If Purchaser requests a shipping method other than Ground Service, Purchaser must pre-pay the difference in cost before

CarNetix will ship the replacement product.

Product Return Policy

If you are an end-user customer who purchased products directly from CarNetix, you may return the product to CarNetix within thirty (30) days of the purchase date for a refund of the purchase amount minus a 15% re-stocking fee. Shipping charges and insurance are not included and will not be refunded to you.

Returned products must be in as-new condition, and include all components, cables and all other items that were included with product. Failure to meet this requirement will result in an additional 10% restocking fee (25% total) being deducted from your refund. You must follow the conditions outlined below in order to obtain your refund: Before any return, an RMA number must be obtained from

CarNetix in accordance with the aforementioned RMA Policy.

To receive a refund, the returned product must be received at our factory within fourteen (14) days from the date that the RMA is issued and within thirty (30) days from the purchase date. If your product is not received within fourteen (14) days of the RMA being issued, but it is received within thirty (30) days of your purchase date, then you shall be charged 25% of your invoice amount as a restocking fee. If your product is not received within thirty (30) days of your purchase date, then you shall not be entitled to any refund.

Upon CarNetix receipt of your returned product and verification that same has not been damaged, altered or is missing any other original shipping items, you will receive a refund minus re-stocking fee, normally within fourteen (14) days from the date the system is received. Your refund amount will be reduced for any missing parts, components, other original shipping items or damage or alteration to the product. CarNetix will not accept any unauthorized returns. Any merchandise returned without first obtainin g an RMA number shall be rejected and returned to you at your expense.

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CarNetix CNX-P2140 User’s Guide - Version 1.1

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Key Features

  • USB connectivity to monitor application
  • Real-time gauges
  • Pulse Start feature
  • Soft Jumpers for parameter tweaking
  • Firmware updates via USB
  • Automatic +12V or +24V system detection
  • Multiple output voltage options

Frequently Answers and Questions

What are the specifications of the CNX-P2140 power supply?
The CNX-P2140 has a wide input voltage range (+7.5VDC to +34VDC) and can handle engine cranking. It offers a variety of primary output voltages (+12V, +18.5V, or +20V) and secondary output voltages (+5V, +12V, or +13.2V) with different current limits depending on the jumper settings.
How do I configure the CNX-P2140 using the PSUmoni application?
The PSUmoni application provides a graphical interface for configuring various parameters of the CNX-P2140, including the output voltages, current limits, and shutdown delays.
What is the purpose of the Pulse Start feature?
The Pulse Start feature allows you to remotely start and stop the CNX-P2140 power supply using an external signal like a car alarm or a WiFi device with Wake-On-LAN (WOL) capabilities.

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