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ELI101-IPHW

User’s Manual

5/28/20

Copyright ©2020

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Figure 7. Backlight Control

To control the display backlight, the user should connect an externally generated Pulse Width
Modulated (PWM) signal to J3 pin 2 along with a common ground to J3 pin 3. The frequency range
for this signal is from 100Hz to 2KHz. Each ELI backlight properties vary, so the user should test
their version for an acceptable range of brightness control. For example, your 0 to 100% brightness
range may be 40% to 90% of the PWM range. In certain installations, a series resistor on J3 pin 2 may
be required to ensure a clean PWM signal to the ELI. The suggested value for the resistor is 100ohms.
See Figure 9 below, for example of connectivity. Actual testing in your installation may require this
resistor to be changed, or possibly not required at all.

On the ELI unit, the PWM dimming signal is pulled up between 1.49V and 0.487 volts. This is
controlled by the Linear Brightness Control Potentiometer (VR1), detailed in Section 10.0.

If you provide NO PWM signal to VLED_PWM (J3 pin 2), ELI will provide 100% backlight power
to the display (with the default potentiometer setting of 100%). The potentiometer setting can be
overdriven by the push-pull PWM input on J3-2, so the external SBC can always maintain control of
the backlight brightness across the full range. The potentiometer can be used to set a default backlight
brightness level that is used until the SBC has time to boot up and set the desired brightness level via
PWM output. This feature can also be used to “blank” the display during boot-up in cases where the
default BIOS settings aren’t compatible with ELI. This prevents the screen from showing incorrect
images until the SBC has time to boot and read EDID or set the correct video timings for the ELI101-
IPHW.

The output at pin 1 of J3 is 3.3VDC ± 5%. If the external system is capable of directly driving the
PWM dimming signal at 3.3VDC, there is no need to connect pin 1 to the cable. ELI provides the 3.3
VDC signal for the external system in case this voltage is needed to generate the correct levels on the
PWM VLED_PWM Input.

PWM Backlight
Dimming

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Summary of Contents for ELI101-IPHW

Page 1: ...Copyright 2020 Future Designs Inc All Rights Reserved User s Manual ELI101 IPHW ELI101 IPHW Revision 1 03...

Page 2: ...ay be reproduced or transmitted in any form or by any means electronic or mechanical for any purpose without the express written permission of Future Designs Inc 996 A Cleaner Way Huntsville AL 35805...

Page 3: ...ssories Purchased Separately 4 ESD Warning 5 Determining the Revision of your ELI 5 Technical Specifications 6 Mechanical and Mounting Details 6 Connectors 8 Power Details 8 Extended Display Informati...

Page 4: ...t https www teamfdi com product details eli101 iphw for the results of FDI s compatibility tests with popular operating systems and platforms Our results as indicated in the table demonstrate ELI vers...

Page 5: ...ay cause damage to the boards that will not be covered under warranty General practice for working with static sensitive devices should be followed when working with this device Determining the Revisi...

Page 6: ...onse Time 10 Ton 15 Toff ms Backlight 45 LED Backlight Life 50K hours typ Operating Temperature 20 to 70 C Storage Temperature 30 to 80 C Input Voltage 5 to 24 VDC 5 Power Consumption 550mA typ 650mA...

Page 7: ...cable pull when the ELI101 IPHW is mounted in a flat or downward mounting configuration It is critical that the end user provide some type of backside mounting support to carry the weight of the asse...

Page 8: ...e shelf power supply such as the T1071 P5P ND to be used for quick demos or prototyping across the entire ELI Family In general any 12VDC power supply with a 2 1mm center positive plug will be accepta...

Page 9: ...d you may check the 12VDC input with a Fluke meter or scope by probing the 12V and GND contacts shown below Please verify that the 12VDC is present is within the 5 tolerance and is free from excessive...

Page 10: ...y clockwise results in maximum brightness of the display Turning the pot counterclockwise will reduce the brightness and then turn the backlight off Figure 6 Brightness Control Potentiometer VR1 PWM C...

Page 11: ...tiometer VR1 detailed in Section 10 0 If you provide NO PWM signal to VLED_PWM J3 pin 2 ELI will provide 100 backlight power to the display with the default potentiometer setting of 100 The potentiome...

Page 12: ...fect while a PWM input signal is applied The PWM input signal overrides the VR1 pot setting The J3 mating connector information is provided below Manufacturer Hirose Part Number DF12 3S 1 25C Digi Key...

Page 13: ...ode must be compiled using g brightness cpp o brightness l bcm2835 in order to properly link the header file Must be run using sudo accessing GPIO pins requires root permissions After compiling you ma...

Page 14: ...and RANGE endl return 1 if bcm2835_init return 1 bcm2835_gpio_set_pad BCM2835_PAD_GROUP_GPIO_0_27 BCM2835_PAD_DRIVE_2mA Sets the drive current to 2mA bcm2835_gpio_fsel LED BCM2835_GPIO_FSEL_ALT5 Sets...

Page 15: ...com product details eli70 iphw software Support 12 1Where to Get Help Online technical support is available at http www teamfdi com support 12 2Useful Links Future Designs Inc Forums http www teamfdi...

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