Diamond systems Jmm-5312-apk User manual

JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 1

Jupiter-MM-5000

Advanced Technology 218W DC/DC Power Supply PC/104-Plus Module

User Manual B.00

FOR TECHNICAL SUPPORT Diamond Systems Corporation

PLEASE CONTACT: 158 Commercial Street

Sunnyvale, CA 94086 USA

support@diamondsystems.com Tel 1-650-810-2500

Fax 1-650-810-2525

www.diamondsystems.com

Revision

Date

Comment

A.00

1/5/2016

Initial Release

B.00

3/24/16

Updated with Intelligent Model information

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 2

Contents

1. Important Safe Handling Information............................................................................................................3

2. Introduction......................................................................................................................................................4

2.1 Key Features.........................................................................................................................................4

2.2 Cooling ..................................................................................................................................................5

2.3 LED Indicators.......................................................................................................................................5

2.1 Available Models ...................................................................................................................................5

3. Functional Overview .......................................................................................................................................6

3.1 Functional Block Diagram .........................................................................................................................6

3.2 Mechanical Board Drawing .......................................................................................................................7

4. Power Supply Operation.................................................................................................................................9

4.1 Source Selection .......................................................................................................................................9

4.2 +5V Output Functionality...........................................................................................................................9

4.3 +12V Output Functionality.........................................................................................................................9

4.4 +3.3V Output Functionality........................................................................................................................9

4.5 +5V Standby Output Functionality.............................................................................................................9

4.6 +3.3V Standby Output Functionality..........................................................................................................9

4.7 Input Protection .........................................................................................................................................9

4.8 Remote On/Off ....................................................................................................................................... 10

4.9 Advanced System Controller.................................................................................................................. 10

5. Connector Location and Description ......................................................................................................... 11

5.1 Connector List ........................................................................................................................................ 12

6. Connector Pinout and Pin Description ...................................................................................................... 13

6.1 Primary Power Input Connector (J7)...................................................................................................... 13

6.2 Secondary Power Input Connector (J8)................................................................................................. 13

6.3 Output Power Connectors (J9 & J10) .................................................................................................... 14

6.4 Remote On/Off Control (J6) ................................................................................................................... 14

6.5 USB Connector for Control Panel Interface (J12).................................................................................. 15

6.6 ISA Connectors (J1 & J2)....................................................................................................................... 15

6.7 PC-104 Connector (J3) .......................................................................................................................... 16

7. Installation..................................................................................................................................................... 17

8. Output Voltages and Currents .................................................................................................................... 17

9. Specifications............................................................................................................................................... 18

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 3

1. IMPORTANT SAFE HANDLING INFORMATION

WARNING!

ESD-Sensitive Electronic Equipment

Observe ESD-safe handling procedures when working with this product.

Always use this product in a properly grounded work area and wear

appropriate ESD-preventive clothing and/or accessories.

Always store this product in ESD-protective packaging when not in use.

Safe Handling Precautions

The board contains a high density connector with many connections to sensitive electronic components. This

creates many opportunities for accidental damage during handling, installation and connection to other

equipment. The list here describes common causes of failure found on boards returned to Diamond Systems for

repair. This information is provided as a source of advice to help you prevent damaging your Diamond (or any

vendor’s) boards.

ESD damage –This type of damage is usually almost impossible to detect, because there is no visual sign of

failure or damage. The symptom is that the board eventually simply stops working, because some component

becomes defective. Usually the failure can be identified and the chip can be replaced. To prevent ESD damage,

always follow proper ESD-prevention practices when handling computer boards.

Damage during handling or storage –On some boards we have noticed physical damage from mishandling. A

common observation is that a screwdriver slipped while installing the board, causing a gouge in the PCB surface

and cutting signal traces or damaging components.

Another common observation is damaged board corners, indicating the board was dropped. This may or may not

cause damage to the circuitry, depending on what is near the corner. Most of our boards are designed with at

least 25 mils clearance between the board edge and any component pad, and ground / power planes are at least

20 mils from the edge to avoid possible shorting from this type of damage. However these design rules are not

sufficient to prevent damage in all situations.

A third cause of failure is when a metal screwdriver tip slips, or a screw drops onto the board while it is powered

on, causing a short between a power pin and a signal pin on a component. This can cause overvoltage / power

supply problems described below. To avoid this type of failure, only perform assembly operations when the

system is powered off.

Sometimes boards are stored in racks with slots that grip the edge of the board. This is a common practice for

board manufacturers. However our boards are generally very dense, and if the board has components very close

to the board edge, they can be damaged or even knocked off the board when the board tilts back in the rack.

Diamond recommends that all our boards be stored only in individual ESD-safe packaging. If multiple boards are

stored together, they should be contained in bins with dividers between boards. Do not pile boards on top of each

other or cram too many boards into a small location. This can cause damage to connector pins or fragile

components.

Power supply wired backwards –Our power supplies and boards are not designed to withstand a reverse

power supply connection. This will destroy each IC that is connected to the power supply (i.e. almost all ICs). In

this case the board will most likely will be unrepairable and must be replaced. A chip destroyed by reverse power

or by excessive power will often have a visible hole on the top or show some deformation on the top surface due

to vaporization inside the package. Check twice before applying power!

Overvoltage on analog input –If a voltage applied to an analog input exceeds the design specification of the

board, the input multiplexor and/or parts behind it can be damaged. Most of our boards will withstand an

erroneous connection of up to 36V on the analog inputs, even when the board is powered off, but not all boards,

and not in all conditions.

Overvoltage on analog output –If an analog output is accidentally connected to another output signal or a

power supply voltage, the output can be damaged. On most of our boards, a short circuit to ground on an analog

output will not cause trouble.

Overvoltage on digital I/O line –If a Digital I/O is connected to a voltage above the maximum specified voltage,

the digital circuitry can be damaged. On most of our boards the acceptable range of voltages connected to digital

I/O signals is 0-5V, and they can withstand about 0.5V beyond that (-0.5 to 5.5V) before being damaged.

However logic signals at 12V and even 24V are common, and if one of these is connected to a 5V logic chip, the

chip will be damaged, and the damage could even extend past that chip to others in the circuit.

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 4

2. INTRODUCTION

Jupiter-MM-5000 is a family of PC/104-Plus and PC/104 DC/DC power supplies with wide input range and high

output power. The nominal output power is 5VDC @ 100 Watts at 25oC (5VDC @ 20A), with additional power

provided on 12V and +3.3V rails plus +5V and +3.3V standby voltages optional. The output power may be de-

rated at the high end of the temperature range based on the cooling capacity of the thermal solution, as well as

de-rated at low input voltages based on the current capacity of the input circuit and connector.

Available in both basic and intelligent models, the intelligent models offer complete software programmability of

the power supply.

2.1 Key Features

Up to 218W total output power at 25oC

+5VDC at 20A maximum output (100W)

+12VDC at 8A maximum output (96W)

+3.3VDC at 5A maximum output (16.5W)

+5VDC standby option at 1A maximum output (5W)

+3.3VDC standby option at 0.1A maximum output (0.33W)

Extreme load stability: 0.35% maximum output voltage droop at 5V output, 0-20A load, VIN = 12V,

TA= 25ºC

Extremely low ripple: 12mV peak-to-peak ripple at 5V output, 0-20A load, VIN = 12V, TA= 25ºC

High efficiency: 92-94% at 5V output, 0-20A load, VIN = 12V, TA= 25ºC

Excellent transient load response: +/-72mV at 5V output, 25-75% load step, 2.5A/usec ramp rate, VIN =

24V, TA= 25ºC

Extreme temperature stability: +/-0.5% at 5V output, 10A load, VIN = 24V, TA= -40ºC to +85ºC

Input protection circuit protects from over/under voltage, reverse polarity, surges, transients, reflected

noise

Advanced System Controller with:

oIndividual supply on/off control for all voltage outputs

oIndividual supply output voltage / current monitoring

oOutput voltage sequencing and slew rate control

oOutput voltage monitoring

oFault handling based on programmable limits with interrupt notification, including supply

shutdown in case of overload or other programmed conditions

oHiccup mode for auto-restart when fault conditions are removed

oMin / max voltage and temperature logging

oSecondary input cutover voltage selection

Wide input range: +7 to +34VDC

Heat sink or heat spreader cooling solutions

PC/104 form factor: 3.550” x 3.775” (90mm x 96mm)

PC/104 and PC/104-Plus bus connector options

-40oC to +85oC (-40°F to +185°F) operating temperature

MIL-STD-202G shock and vibration compatible

.

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 5

2.2 Cooling

All significant heat generating components are mounted on the top side of the board and are thermally connected

to the thermal solution with thermal pads. The JMM-5000 power supply offers two cooling methods:

Heat spreader: A heat spreader on the top side may be used for all cooling as shown at

the right. The heat spreader is the size and shape of the PC/104 board. It contains the

standard mounting hole patterns for #6 and M3 screws. The Diamond Systems’ PC/104

heat sink accessory may be installed on top of this heat spreader as an option. When the

heat spreader is installed, the PC/104 and PC/104-Plus connectors have bottom-side pins

only and do not support stacking of modules on the top side of the board. The heat

spreader configuration, when attached to a suitable heat dissipation surface or when the

heat sink accessory is installed, supports the full power output at 85oC. Heat spreader supports the installation

of PC/104 heat sink accessory ACC-HS104-12.7.

Heat sink: A low profile heat sink may be installed on the board in the area between the

PC/104 and PC/104-Plus connectors as shown at the right. The heat sink should be used

only in applications with power dissipation of 100W or less. The height of the heat sink

conforms to PC/104 height limits of 0.435” / 11mm max height above the PCB top

surface. The heat sink configuration may have a lower total output power capacity at

85oC and/or a lower maximum operating temperature at full power output.

2.3 LED Indicators

A green LED is provided for each output voltage to indicate proper operation. The LEDs are located along the

lower edge of the PCB below the PC/104 connector. All LEDs are calibrated to have equal brightness at the

nominal output voltage for their designated power supply.

2.1 Available Models

The Jupiter-MM-5000 power supply family is available with the following standard configurations of output power,

output voltages, form factor and thermal solution:

Several customization and minimum order quantity (MOQ) options are available for the JMM-5000 and JMM-

5012 power supply models as follows:

Add 3.3V at 5A output

Add dual input power connectors with auto-cutover

Contact Diamond Systems for more information.

Ordering Information

JMM-5312-APK

218 Watt Power Supply, +5V/+12V/+3.3V, standby voltages,

advanced system controller, PC/104-Plus, heat sink

JMM-5312-AK

218 Watt Power Supply, +5V/+12V/+3.3V, standby voltages,

advanced system controller, PC/104, heat sink

JMM-5312-APH

218 Watt Power Supply, +5V/+12V/+3.3V, standby voltages,

advanced system controller, PC/104-Plus, heat spreader

JMM-5312-AH

218 Watt Power Supply, +5V/+12V/+3.3V, standby voltages,

advanced system controller, PC/104, heat spreader

JMM-5012-APK

196 Watt Power Supply, +5V/+12V, PC/104-Plus, heat sink

JMM-5012-AK

196 Watt Power Supply, +5V/+12V, PC/104, heat sink

JMM-5012-APH

196 Watt Power Supply, +5V/+12V, PC/104-Plus, heat spreader

JMM-5012-AH

196 Watt Power Supply, +5V/+12V, PC/104, heat spreader

JMM-5000-APK

100 Watt Power Supply, +5V, PC/104-Plus, heat sink

JMM-5000-AK

100 Watt Power Supply, +5V, PC/104, heat sink

JMM-5000-APH

100 Watt Power Supply, +5V, PC/104-Plus, heat spreader

JMM-5000-AH

100 Watt Power Supply, +5V, PC/104, heat spreader

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3. FUNCTIONAL OVERVIEW

3.1 Functional Block Diagram

Figure 1 shows the block diagram for the Jupiter-MM-5000 family. All models of the family are represented in the

lock diagram with the items in green only being included on the full featured intelligent models.

Figure 1: Block Diagram

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3.2 Mechanical Board Drawing

Figure 2 shows the mechanical drawing for Jupiter-MM-5000 with locations of the key features. Figure 3 is a

dimensioned drawing of the Jupiter-MM-5000. The power supply modules adhere to the PC/104-Plus standard.

Figure 2: Mechanical Drawing

with Key Feature Placement

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Figure 3: Dimensioned Mechanical Drawing

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 9

4. POWER SUPPLY OPERATION

4.1 Source Selection

The power supply takes its input from either the main input connector or the optional backup / battery input

connector, with precedence given to the main input connector. If the input voltage on the main input connector is

above the designated threshold voltage, it will be used as the source for the power supply. If the input voltage

falls below the minimum, the supply will automatically switch to the backup / battery input. If this secondary input

does not have sufficient voltage, the supply will shut off.

The design supports the use of either single or dual power sources using the LTC4417 chip.

4.2 +5V Output Functionality

The +5V output uses a multi-phase design. The 5V is generated from a dual LTC3890 switch. Each switch

output can produce up to 5A of output current for a total of 20A capacity with all 4 outputs enabled. In this fashion

the output efficiency can be optimized based on the load, resulting in higher efficiency across the full rated output

power of the supply.

4.3 +12V Output Functionality

The LT3790 synchronous 4-switch buck-boost voltage/ current regulator controller is used for generating +12V

output. The current output is limited to 8A maximum.

4.4 +3.3V Output Functionality

A TI-based power module is used for generating +3.3V output at 5A maximum. The LMZ31710 is a SIMPLE

SWITCHER power module and an easy-to-use integrated power solution that combines a 10A DC/DC converter

with power MOSFETs, a shielded inductor, and passives in a low profile, QFN package. The module is powered

using the 5V supply.

4.5 +5V Standby Output Functionality

A LT8620 2A regulator is used for the +5V standby supply. The +5V standby supply is used to supply the power

controller and to generate the +3.3V standby voltage. +5V standby at 1A maximum is available at the output

connector.

4.6 +3.3V Standby Output Functionality

The AP7167-SPG-13 is used for generating the +3.3V standby supply. The +3.3V standby supply is used to

supply the PIC microcontroller and the USB to I2C chip. 3.3V standby 0.1A maximum is available at the output

connector.

4.7 Input Protection

JMM-5000 includes an input protection circuit based on the LTC4364 chip. This device provides surge / spike

protection, load dump protection, overvoltage / under voltage protection, reverse polarity protection, and input

current limiting (circuit breaker). Filtering is also added to limit noise reflected back onto the input.

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4.8 Remote On/Off

The power supply can be switched on and off remotely in two ways; through a discrete logic input or through a

programmable serial command.

For the discrete logic input, a 2-pin connector is used to provide an on/off control and ground. Driving the on/off

control to a logic 0, or shorting it to the power supply common, will shut off all supply outputs (except the auxiliary

+5V for the microcontroller and power controller circuit). The control input has a pull-up resistor to drive it to a

default on state. The remote on/off circuit is always operational when appropriate power is supplied through

either the main input or the backup / battery input connections.

Usage of the programmable serial command remote on/off can be found in the Janus-MM-5000 Software Users

Manual.

4.9 Advanced System Controller

The intelligent Jupiter-5000 models include a system controller that offers advanced configuration, control, and

monitoring features. The system controller is accessed via a USB port and is accompanied by benchtop

configuration software as well as an application library for in-application real-time control.

Individual supply on/off control for +12V, +5V, and +3.3V outputs

Individual supply output voltage / current monitoring

Output voltage sequencing and slew rate control

Output voltage adjustment

Input voltage monitoring

Fault handling based on programmable limits with interrupt notification, including supply shutdown in case of

overload or other programmed conditions

Hiccup mode for auto-restart when fault conditions are removed

Min / max voltage and temperature logging

Secondary input cutover voltage selection

Information on using the advanced systems controller can be found in the Janus-MM-5000 Software Users

Manual.

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 11

5. CONNECTOR LOCATION AND DESCRIPTION

Figure 4: Board Layout

J12

J8

J7

J13

J2

J1

J3

J6

J10

J9

J5

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5.1 Connector List

Connector

Description

J1

PC/104 bus 8-bit ISA connector

J2

PC/104 bus 16-bit ISA connector

J3

PC/104-Plus PCI connector

J5

Factory use only

J6

Remote on/off connector

J7

Primary power input connector

J8

Secondary power input connector

J9

+5V / +5V standby output power connector

Connector

J10

+12V / +3.3V / +3.3V standby output power connector

J12

USB connector for Control Panel interface

J13

Factory use only

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6. CONNECTOR PINOUT AND PIN DESCRIPTION

6.1 Primary Power Input Connector (J7)

A four position screw terminal block is used to provide main input power to the board. This terminal block is

located along the left side of the board. The connector supports 16A total on the two input terminals and 16A

total on the two ground terminals.

J7

Vin 7-34VDC

1

Vin 7-34VDC

2

GND

3

GND

4

Connector Part Number: 1827884

Mating Part Number: 1827729

6.2 Secondary Power Input Connector (J8)

Power can also be provided from a battery source through the connector J8. A 4-position screw terminal block is

used to provide backup / battery input power to the board. The minus terminal is connected to the power supply

common. This terminal block is located along the left side of the board. The connector supports 8A on each

terminal.

J8

Vin 7-34VDC

1

Vin 7-34VDC

2

GND

3

GND

4

Connector Part Number: 1827884

Mating Part Number: 1827729

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6.3 Output Power Connectors (J9 & J10)

Two screw terminal blocks are used for output power. J9 is a 7-pin block provides +5V and +5V standby output.

J10 is a 5-pin block and provides +12V, +3.3V, and +3.3V standby outputs. Following are the pinouts for the

mentioned connectors.

J9 J10

+5V out

1

+3.3V standby

1

+5V out

2

+12V out

2

+5V out

3

+3.3V out

3

GND

4

GND

4

GND

5

GND

5

GND

6

+5V standby

7

Connector J9:

Part Number: 1827910

Mating part Number: 1827758

Connector J10:

Part Number: 1827897

Mating part Number: 640621-2

6.4 Remote On/Off Control (J6)

A 2-position latching pin header can be used to connect a remote on/off signal to the power supply. This

connector is located along the right side of the board. An active low signal / contact closure between the input

and ground will turn off all outputs.

J6

On/Off

1

GND

2

Part Number: 640457-2

Mating part Number: 1827732

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6.5 USB Connector for Control Panel Interface (J12)

A micro USB connector is used for the USB interface to the PIC microcontroller for communication between host

SBC and PIC microcontroller.

1

VBUS

2

D-

3

D+

4

NC

5

Gnd

Part Number: 10118194-0001LF

6.6 ISA Connectors (J1 & J2)

For simplicity, signal names are only shown for pins with connections on board. All remaining pins are not used

on JMM-HP.

J2: PC/104 8-bit bus connector J1: PC/104 16-bit bus connector

A1

B1

Ground

A2

B2

A3

B3

+5V

A4

B4

A5

B5

-5V

A6

B6

A7

B7

-12V

A8

B8

Ground

D0

C0

Ground

A9

B9

+12V

D1

C1

A10

B10

D2

C2

A11

B11

D3

C3

A12

B12

D4

C4

A13

B13

D5

C5

A14

B14

D6

C6

A15

B15

D7

C7

A16

B16

D8

C8

A17

B17

D9

C9

A18

B18

D10

C10

A19

B19

D11

C11

A20

B20

D12

C12

A21

B21

D13

C13

A22

B22

D14

C14

A23

B23

D15

C15

A24

B24

+5V

D16

C16

A25

B25

D17

C17

A26

B26

Ground

D18

C18

A27

B27

Ground

D19

C19

A28

B28

A29

B29

+5V

A30

B30

A31

B31

Ground

A32

B32

Ground

Connector Part Number / Description

J1: EPT Connectors 962-60323-12 64 pins .435” high solder tails

J2: EPT Connectors 962-60203-12 40 pins .435” high solder tails

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6.7 PC-104 Connector (J3)

The board contains a PC-104 connector, J3, on the top side in the standard position as described by the PC/104-

Plus specification.

J3

A

B

C

D

1

GND/5.0V KEY2

Reserved

+5

AD00

2

VI/O

AD02

AD01

+5V

3

AD05

GND

AD04

AD03

4

C/BE0*

AD07

GND

AD06

5

GND

AD09

AD08

GND

6

AD11

VI/O

AD10

M66EN

7

AD14

AD13

GND

AD12

8

+3.3V

C/BE1*

AD15

+3.3V

9

SERR*

GND

SB0*

PAR

10

GND

PERR*

+3.3V

SDONE

11

STOP*

+3.3V

LOCK*

GND

12

+3.3V

TRDY*

GND

DEVSEL*

13

FRAME*

GND

IRDY*

+3.3V

14

GND

AD16

+3.3V

C/BE2*

15

AD18

+3.3V

AD17

GND

16

AD21

AD20

GND

AD19

17

+3.3V

AD23

AD22

+3.3V

18

IDSEL0

GND

IDSEL1

IDSEL2

19

AD24

C/BE3*

VI/O

IDSEL3

20

GND

AD26

AD25

GND

21

AD29

+5V

AD28

AD27

22

+5V

AD30

GND

AD31

23

REQ0*

GND

REQ1*

VI/O

24

GND

REQ2*

+5V

GNT0*

25

GNT1*

VI/O

GNT2*

GND

26

+5V

CLK0

GND

CLK1

27

CLK2

+5V

CLK3

GND

28

GND

INTD*

+5V

RST*

29

+12V

INTA*

INTB*

INTC*

30

-12V

Reserved

GND/3.3V KEY2

Connector Type: 30 x 4 pin 2mm pitch with solder tails

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 17

7. INSTALLATION

All JMM-5000 power supplies are load tested prior to shipping. The power supplies ship with all the external

connectors required to start using your power supply immediately.

No user configuration is required for any version of JMM-5000. Simply plug in the input power and the supply is

operational. To power up your supply:

1. For protection, if you are unfamiliar with the use of this product, do not plug any other boards onto it

when powering it up for the first time.

2. Connect a DC source to the primary power input connector, J7, or to the secondary power input

connector, J8, if it is available. The supply will operate with input voltages from +7 to +34VDC.

CAUTION: Voltages above 35V will be shunted to ground through a transient voltage suppressor

(TVS) on the board. The TVS is rated for 1,500 watt surges. However it could be damaged by

sustained voltages above 35V.

3. Once the input voltage is in the valid range, verify that the proper power output indicator LEDs along the

lower edge of the board are illuminated. This verifies your input power connections and the power supply

is fully functional. Note that only indicators corresponding to the voltages available on the supply will be

lit.

4. Power down the supply. Plug the supply into your PC/104 stack. Your system is ready to use.

8. OUTPUT VOLTAGES AND CURRENTS

JMM-5000 provides output voltages based on the model and options ordered. The outputs appear on the

PC/104 bus headers J1 / J2 as well as on the output power connectors J9 and J10. The table below lists the

maximum ratings for each output voltage on each base Jupiter-5000 model.

Output

JMM-5012

JMM-5000

JMM-5312 *

+5V

20A

+12V

8A

-

8A

+3.3V

**

5A

+5V standby

-

1A

+3.3V standby

-

0.1A

** Optional special order option to add +3.3V at 5A, minimum order quantities apply

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JMM-5000 User Manual Rev B.00 www.diamondsystems.com Page 18

9. SPECIFICATIONS

Input

Input voltage

7 –34VDC

Input protection

Over / under voltage, reverse polarity, surges, transients, reflected

noise

Output

Output voltage/current

+5V at 20A maximum

+12V at 8A maximum

+3.3V at 5A maximum

+5V standby at 1A maximum

+3.3V standby at 0.1A maximum

Output protection

Current limit and short circuit protection

Load regulation

±0.8%, Vmin to Vmax, 0-100% load on all outputs, -40°C to +85°C

0.35% maximum output voltage droop at 5V output, 0-20A load,

VIN = 12V, TA= 25°C

Output ripple

44mV peak-to-peak maximum

12mV peak-to-peak at 5V output, 0-20A load, VIN = 12V, TA= 25°C

Efficiency

92-94% at 5V output, 0-20A load, VIN = 12V, TA= 25°C

Transient load response

+/-72mV at 5V output, 25-75% load step, 2.5A/usec ramp rate,

VIN = 24V, TA= 25°C

Temperature stability

+/-0.5% at 5V output, 10A load, VIN = 24V, TA= -40°C to 85°C

General

On / Off

Remote or programmable on/off logic input

Dimensions

PC/104 form factor:

3.55” x 3.775” (90mm x 96mm) not including screw terminals

Maximum height .435” (11mm) above PCB top surface

Bus connection options

16-bit stackthrough ISA bus

32-bit PCI bus

Operating temperature

-40°C to +85°C (-40°F to +185°F)

Operating humidity

5 to 95% non-condensing

Shock

MIL-STD-202G compatible

Vibration

MIL-STD-202G compatible

Weight

6.3oz (178.6g) heat sink

8.1oz (229.6g) heat spreader

RoHS

Compliant

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Diamond Systems JMM-5312-APK User manual

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