Ambilight funktioniert nicht
Verfasst: 20. Mai 2016, 00:27
Hallo zusammen
Ich hab mir nun auch mal die zeit genommen und mir das ambilight nach eurer anleitung zusammengebaut.
Leider läuft es bei mir nicht.
Meine erste led befindet sich links unten im eck un ddas ganze läuft gegen den urzeigersin
Mit der Hyperion app kann ich mich verbinden ich seh auch die ganzen effekte in der app, sprich die app synkronisiert sich auch .
aber egal was ich mach es tut sich nichts an den leds
Meine Leds Hab ich hier gekauft: http://www.ebay.de/itm/WS2801-RGB-LED-S ... 1465387409?
Die Ausgelesene daten mit Putty
Meine Boot Config
Die Hyperionconfig
Danke schon mal für eure hilfe ,
Mfg David
Ich hab mir nun auch mal die zeit genommen und mir das ambilight nach eurer anleitung zusammengebaut.
Leider läuft es bei mir nicht.
Meine erste led befindet sich links unten im eck un ddas ganze läuft gegen den urzeigersin
Mit der Hyperion app kann ich mich verbinden ich seh auch die ganzen effekte in der app, sprich die app synkronisiert sich auch .
aber egal was ich mach es tut sich nichts an den leds
Meine Leds Hab ich hier gekauft: http://www.ebay.de/itm/WS2801-RGB-LED-S ... 1465387409?
Die Ausgelesene daten mit Putty
Code: Alles auswählen
##############################################
# OpenELEC #
# http://openelec.tv #
##############################################
OpenELEC (official) Version: 6.0.3
OpenELEC:~ # killall hyperiond
killall: hyperiond: no process killed
OpenELEC:~ # /storage/hyperion/bin/hyperiond.sh /storage/.config/hyperion.config
.json
Hyperion Ambilight Deamon
Version : V1.02.0 (brindosch-f4162eb/2d45d51-1462453507
Build Time: May 5 2016 06:07:47
INFO: Selected configuration file: /storage/.config/hyperion.config.json
HYPERION INFO: ColorTransform 'default' => [0; 116]
HYPERION INFO: ColorCorrection 'default' => [0; 116]
HYPERION INFO: ColorAdjustment 'default' => [0; 116]
LEDDEVICE INFO: configuration:
{
"colorOrder" : "bgr",
"name" : "MyHyperionConfig",
"output" : "/dev/spidev0.0",
"rate" : 1000000,
"type" : "ws2801"
}
INFO: Creating linear smoothing
HYPERION (CS) INFO: Created linear-smoothing(interval_ms=50;settlingTime_ms=200;updateDelay=0
EFFECTENGINE INFO: Initializing Python interpreter
INFO: Hyperion started and initialised
INFO: Boot sequence 'Rainbow swirl fast' EFFECTENGINE INFO: run effect Rainbow swirl fast on channel 0
BLACKBORDER INFO: threshold set to 0.01 (3)
BLACKBORDER INFO: mode:classic
started
INFO: Kodi checker created and started
INFO: Json server created and started on port 19444
INFO: Proto server created and started on port 19445
DISPMANXGRABBER INFO: Display opened with resolution: 1920x1080
BLACKBORDER INFO: threshold set to 0.01 (3)
BLACKBORDER INFO: mode:classic
INFO: Frame grabber created and started
KODICHECK INFO: Kodi Connected
KODICHECK INFO: Kodi Message: {"id":666,"jsonrpc":"2.0","result":[]}
KODICHECK INFO: switching to MENU mode
KODICHECK INFO: Kodi Message: {"id":668,"jsonrpc":"2.0","result":{"System.ScreenSaverActive":false}}
KODICHECK INFO: Kodi Message: {"id":670,"jsonrpc":"2.0","result":{"version":{"major":15,"minor":2,"revision":"02e7013","tag":"stable"}}}
BORDER SWITCH REQUIRED!!
CURRENT BORDER TYPE: unknown=0 hor.size=2 vert.size=2
EFFECTENGINE INFO: effect finishedMeine Boot Config
Code: Alles auswählen
################################################################################
# This file is part of OpenELEC - http://www.openelec.tv
# Copyright (C) 2009-2014 Stephan Raue (stephan@openelec.tv)
# Inspired and partly copied from:
# http://youresuchageek.blogspot.fr/2012/09/howto-raspberry-pi-openelec-on.html
#
# OpenELEC is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# OpenELEC is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with OpenELEC. If not, see <http://www.gnu.org/licenses/>.
################################################################################
# Bootloader configuration - config.txt
################################################################################
################################################################################
# Memory (System/GPU configuration )
################################################################################
# default GPU memory split (do not change if you do not know what you are doing)
gpu_mem=128
# SDRAM size based GPU memory split, uncomment and setup to override 'gpu_mem'
gpu_mem_256=112
gpu_mem_512=160
gpu_mem_1024=320
################################################################################
# Overclocking settings
# WARNING: Do not change/enable if you do not know what you are doing!
# The System may become unstable or you can have data corruption or
# you can loose your warranty if you set wrong settings
#
# please read: http://elinux.org/RPi_config.txt#Overclocking_configuration
################################################################################
# Overclock mode settings.
#
# default recommended values are: arm_freq | core_freq | sdram_freq | over_voltage
# no overclocking : 700 | 250 | 400 | 0
# mode 'Modest' : 800 | 300 | 400 | 0
# mode 'Medium' : 900 | 333 | 450 | 2
# mode 'High' : 950 | 450 | 450 | 6
# mode 'Turbo' : 1000 | 500 | 600 | 6
mode 'Pi2' : 950 | 500 | 500 | 2
# arm_freq=700
# core_freq=250
# sdram_freq=400
# over_voltage=0
# set to 'force_turbo=1' to disable dynamic overclocking (you can lose your warranty!)
force_turbo=0
# If you have any data corruption using Turbo Mode and overclocking
# try with this setting uncommented
# If this still fails, try to use Medium mode without "over_voltage=2"
# If it ultimately keeps failing, forget about this until it gets fixed
# Use a more conservative mode that will works fine in any cases:
# initial_turbo=30
################################################################################
# Overscan settings
################################################################################
# Make display smaller to stop text spilling off the screen
# see also http://www.raspberrypi.org/phpBB3/viewtopic.php?f=67&t=15700
# overscan_scale=1
# disable_overscan=1
# Adapt overscan values to your needs
# overscan_left=57
# overscan_right=59
# overscan_top=20
# overscan_bottom=20
################################################################################
# various settings see also: http://elinux.org/RPi_config.txt
################################################################################
# Force HDMI even if unplugged or powered off
hdmi_force_hotplug=1
# Doesn't sent initial active source message.
# Avoids bringing CEC (enabled TV) out of standby and channel switch when
# rebooting.
hdmi_ignore_cec_init=1
################################################################################
# License keys to enable GPU hardware decoding for various codecs
# to obtain keys visit the shop at http://www.raspberrypi.com
################################################################################
# decode_MPG2=0x00000000
# decode_WVC1=0x00000000
# decode_DTS=0x00000000
# decode_DDP=0x00000000
################################################################################
# End of default configuration
# all values below this line were inserted from config.txt.bk (your old config)
# and can be merged with the above values
################################################################################
# Ambilight Modul aktivieren
dtparam=spi=onDie Hyperionconfig
Code: Alles auswählen
// Automatically generated configuration file for 'Hyperion daemon'
// Generated by: HyperCon (The Hyperion deamon configuration file builder)
// Created with HyperCon V1.02.3 (09.04.2016)
{
/// Device configuration contains the following fields:
/// * 'name' : The user friendly name of the device (only used for display purposes)
/// * 'type' : The type of the device or leds (known types for now are
/// ---------SPI---------, APA102, WS2801, P9813, LPD6803, LPD8806, ---------PWM---------, WS2812b (just RPi1), WS281X (RPi1, RPi2, RPi3), --------OTHER--------, PhilipsHUE, AtmoOrb, PiBlaster, Tinkerforge, FadeCandy, UDP, RawHID (USB), SEDU, Adalight, AdalightAPA102, TPM2, USBASP-WS2801, USBASP-WS2812, ------3rd PARTY------, AmbiLed, Atmo, Lightpack, Multi-Lightpack, Paintpack, Test (file), None)
/// * [device type specific configuration]
/// * 'colorOrder' : The order of the color bytes ('rgb', 'rbg', 'bgr', etc.).
"device" :
{
"name" : "MyHyperionConfig",
"type" : "ws2801",
"output" : "/dev/spidev0.0",
"rate" : 1000000,
"colorOrder" : "bgr"
},
/// Color manipulation configuration used to tune the output colors to specific surroundings.
/// The configuration contains a list of color-transforms. Each transform contains the
/// following fields:
/// * 'channelAdjustment'
/// * 'id' : The unique identifier of the channel adjustments (eg 'device_1')
/// * 'leds' : The indices (or index ranges) of the leds to which this channel adjustment applies
/// (eg '0-5, 9, 11, 12-17'). The indices are zero based.
/// * 'pureRed'/'pureGreen'/'pureBlue' : The manipulation in the Red-Green-Blue color domain with the
/// following tuning parameters for each channel:
/// * 'temperature'
/// * 'id' : The unique identifier of the temperature (eg 'device_1')
/// * 'leds' : The indices (or index ranges) of the leds to which this temperature applies
/// (eg '0-5, 9, 11, 12-17'). The indices are zero based.
/// * 'red'/'green'/'blue' : The temperature manipulation in the Red-Green-Blue color domain with the
/// following tuning parameters for each channel:
/// * 'transform'
/// * 'id' : The unique identifier of the color transformation (eg 'device_1')
/// * 'leds' : The indices (or index ranges) of the leds to which this color transform applies
/// (eg '0-5, 9, 11, 12-17'). The indices are zero based.
/// * 'hsv' : The manipulation in the Hue-Saturation-Value color domain with the following
/// tuning parameters:
/// - 'saturationGain' The gain adjustement of the saturation
/// - 'luminanceGain' The gain adjustement of the luminance
/// * 'red'/'green'/'blue' : The manipulation in the Red-Green-Blue color domain with the
/// following tuning parameters for each channel:
/// - 'threshold' The minimum required input value for the channel to be on
/// (else zero)
/// - 'gamma' The gamma-curve correction factor
///
/// Next to the list with color transforms there is also a smoothing option.
/// * 'smoothing' : Smoothing of the colors in the time-domain with the following tuning
/// parameters:
/// - 'type' The type of smoothing algorithm ('linear' or 'none')
/// - 'time_ms' The time constant for smoothing algorithm in milliseconds
/// - 'updateFrequency' The update frequency of the leds in Hz
/// - 'updateDelay' The delay of the output to leds (in periods of smoothing)
"color" :
{
"channelAdjustment" :
[
{
"id" : "default",
"leds" : "*",
"pureRed" :
{
"redChannel" : 255,
"greenChannel" : 0,
"blueChannel" : 0
},
"pureGreen" :
{
"redChannel" : 0,
"greenChannel" : 255,
"blueChannel" : 0
},
"pureBlue" :
{
"redChannel" : 0,
"greenChannel" : 0,
"blueChannel" : 255
}
}
],
"temperature" :
[
{
"id" : "default",
"leds" : "*",
"correctionValues" :
{
"red" : 255,
"green" : 255,
"blue" : 255
}
}
],
"transform" :
[
{
"id" : "default",
"leds" : "*",
"hsl" :
{
"saturationGain" : 1.0000,
"luminanceGain" : 1.0000
},
"red" :
{
"threshold" : 0.0000,
"gamma" : 2.5000
},
"green" :
{
"threshold" : 0.0000,
"gamma" : 2.5000
},
"blue" :
{
"threshold" : 0.0000,
"gamma" : 2.5000
}
}
],
"smoothing" :
{
"type" : "linear",
"time_ms" : 200,
"updateFrequency" : 20.0000,
"updateDelay" : 0
}
},
/// The black border configuration, contains the following items:
/// * enable : true if the detector should be activated
/// * threshold : Value below which a pixel is regarded as black (value between 0.0 and 1.0)
/// * unknownFrameCnt : Number of frames without any detection before the border is set to 0 (default 600)
/// * borderFrameCnt : Number of frames before a consistent detected border gets set (default 50)
/// * maxInconsistentCnt : Number of inconsistent frames that are ignored before a new border gets a chance to proof consistency
/// * blurRemoveCnt : Number of pixels that get removed from the detected border to cut away blur (default 1)
/// * mode : Border detection mode (values=default,classic,osd)
"blackborderdetector" :
{
"enable" : true,
"threshold" : 0.01,
"unknownFrameCnt" : 600,
"borderFrameCnt" : 50,
"maxInconsistentCnt" : 10,
"blurRemoveCnt" : 1,
"mode" : "classic"
},
/// The configuration of the effect engine, contains the following items:
/// * paths : An array with absolute location(s) of directories with effects
/// * color : Set static color after boot -> set effect to "" (empty) and input the values [R,G,B] and set duration_ms NOT to 0 (use 1) instead
/// * effect : The effect selected as 'boot sequence'
/// * duration_ms : The duration of the selected effect (0=endless)
/// * priority : The priority of the selected effect/static color (default=990) HINT: lower value result in HIGHER priority!
"effects" :
{
"paths" :
[
"/storage/hyperion/effects"
]
},
"bootsequence" :
{
"color" : [0,0,0],
"effect" : "Rainbow swirl fast",
"duration_ms" : 3000,
"priority" : 990
},
/// The configuration of the Json/Proto forwarder. Forward messages to multiple instances of Hyperion on same and/or other hosts
/// 'proto' is mostly used for video streams and 'json' for effects
/// * proto : Proto server adress and port of your target. Syntax:[IP:PORT] -> ["127.0.0.1:19447"] or more instances to forward ["127.0.0.1:19447","192.168.0.24:19449"]
/// * json : Json server adress and port of your target. Syntax:[IP:PORT] -> ["127.0.0.1:19446"] or more instances to forward ["127.0.0.1:19446","192.168.0.24:19448"]
/// HINT: If you redirect to "127.0.0.1" (localhost) you could start a second hyperion with another device/led config!
/// Be sure your client(s) is/are listening on the configured ports. The second Hyperion (if used) also needs to be configured! (HyperCon -> External -> Json Server/Proto Server)
// "forwarder" :
// {
// "proto" : ["127.0.0.1:19447"],
// "json" : ["127.0.0.1:19446"]
// },
/// The configuration for the frame-grabber, contains the following items:
/// * width : The width of the grabbed frames [pixels]
/// * height : The height of the grabbed frames [pixels]
/// * frequency_Hz : The frequency of the frame grab [Hz]
/// * priority : The priority of the frame-gabber (Default=890) HINT: lower value result in HIGHER priority!
/// * ATTENTION : Power-of-Two resolution is not supported and leads to unexpected behaviour!
"framegrabber" :
{
"width" : 64,
"height" : 64,
"frequency_Hz" : 10.0,
"priority" : 890
},
/// The configuration of the Kodi connection used to enable and disable the frame-grabber. Contains the following fields:
/// * xbmcAddress : The IP address of the Kodi-host
/// * xbmcTcpPort : The TCP-port of the Kodi-server
/// * grabVideo : Flag indicating that the frame-grabber is on(true) during video playback
/// * grabPictures : Flag indicating that the frame-grabber is on(true) during picture show
/// * grabAudio : Flag indicating that the frame-grabber is on(true) during audio playback
/// * grabMenu : Flag indicating that the frame-grabber is on(true) at the Kodi menu
/// * grabScreensaver : Flag indicating that the frame-grabber is on(true) when Kodi is on screensaver
/// * enable3DDetection : Flag indicating that the frame-grabber should switch to a 3D compatible modus if a 3D video is playing
"xbmcVideoChecker" :
{
"xbmcAddress" : "127.0.0.1",
"xbmcTcpPort" : 9090,
"grabVideo" : true,
"grabPictures" : true,
"grabAudio" : true,
"grabMenu" : true,
"grabScreensaver" : true,
"enable3DDetection" : true
},
/// The configuration of the Json server which enables the json remote interface
/// * port : Port at which the json server is started
"jsonServer" :
{
"port" : 19444
},
/// The configuration of the Proto server which enables the protobuffer remote interface
/// * port : Port at which the protobuffer server is started
"protoServer" :
{
"port" : 19445
},
/// The configuration of the boblight server which enables the boblight remote interface
/// * port : Port at which the boblight server is started
/// * priority: Priority of the boblight server (Default=900) HINT: lower value result in HIGHER priority!
// "boblightServer" :
// {
// "port" : 19333,
// "priority" : 900
// },
/// Configuration for the embedded V4L2 grabber
/// * device : V4L2 Device to use [default="/dev/video0"]
/// * input : V4L2 input to use [default=0]
/// * standard : Video standard (no-change/PAL/NTSC) [default="no-change"]
/// * width : V4L2 width to set [default=-1]
/// * height : V4L2 height to set [default=-1]
/// * frameDecimation : Frame decimation factor [default=2]
/// * sizeDecimation : Size decimation factor [default=8]
/// * priority : Hyperion priority channel [default=900]
/// * mode : 3D mode to use 2D/3DSBS/3DTAB (note: no autodetection) [default="2D"]
/// * cropLeft : Cropping from the left [default=0]
/// * cropRight : Cropping from the right [default=0]
/// * cropTop : Cropping from the top [default=0]
/// * cropBottom : Cropping from the bottom [default=0]
/// * redSignalThreshold : Signal threshold for the red channel between 0.0 and 1.0 [default=0.0]
/// * greenSignalThreshold : Signal threshold for the green channel between 0.0 and 1.0 [default=0.0]
/// * blueSignalThreshold : Signal threshold for the blue channel between 0.0 and 1.0 [default=0.0]
// "grabber-v4l2" :
// {
// "device" : "/dev/video0",
// "input" : 0,
// "standard" : "PAL",
// "width" : -1,
// "height" : -1,
// "frameDecimation" : 2,
// "sizeDecimation" : 8,
// "priority" : 900,
// "mode" : "2D",
// "cropLeft" : 0,
// "cropRight" : 0,
// "cropTop" : 0,
// "cropBottom" : 0,
// "redSignalThreshold" : 0.0,
// "greenSignalThreshold" : 0.0,
// "blueSignalThreshold" : 0.0
// },
/// The configuration for each individual led. This contains the specification of the area
/// averaged of an input image for each led to determine its color. Each item in the list
/// contains the following fields:
/// * index: The index of the led. This determines its location in the string of leds; zero
/// being the first led.
/// * hscan: The fractional part of the image along the horizontal used for the averaging
/// (minimum and maximum inclusive)
/// * vscan: The fractional part of the image along the vertical used for the averaging
/// (minimum and maximum inclusive)
"leds" :
[
{
"index" : 0,
"hscan" : { "minimum" : 0.0100, "maximum" : 0.0600 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 1,
"hscan" : { "minimum" : 0.0100, "maximum" : 0.0365 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 2,
"hscan" : { "minimum" : 0.0365, "maximum" : 0.0630 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 3,
"hscan" : { "minimum" : 0.0630, "maximum" : 0.0895 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 4,
"hscan" : { "minimum" : 0.0895, "maximum" : 0.1159 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 5,
"hscan" : { "minimum" : 0.1159, "maximum" : 0.1424 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 6,
"hscan" : { "minimum" : 0.1424, "maximum" : 0.1689 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 7,
"hscan" : { "minimum" : 0.1689, "maximum" : 0.1954 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 8,
"hscan" : { "minimum" : 0.1954, "maximum" : 0.2219 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 9,
"hscan" : { "minimum" : 0.2219, "maximum" : 0.2484 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 10,
"hscan" : { "minimum" : 0.2484, "maximum" : 0.2749 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 11,
"hscan" : { "minimum" : 0.2749, "maximum" : 0.3014 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 12,
"hscan" : { "minimum" : 0.3014, "maximum" : 0.3278 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 13,
"hscan" : { "minimum" : 0.3278, "maximum" : 0.3543 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 14,
"hscan" : { "minimum" : 0.3543, "maximum" : 0.3808 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 15,
"hscan" : { "minimum" : 0.3808, "maximum" : 0.4073 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 16,
"hscan" : { "minimum" : 0.4073, "maximum" : 0.4338 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 17,
"hscan" : { "minimum" : 0.4338, "maximum" : 0.4603 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 18,
"hscan" : { "minimum" : 0.4603, "maximum" : 0.4868 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 19,
"hscan" : { "minimum" : 0.4868, "maximum" : 0.5132 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 20,
"hscan" : { "minimum" : 0.5132, "maximum" : 0.5397 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 21,
"hscan" : { "minimum" : 0.5397, "maximum" : 0.5662 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 22,
"hscan" : { "minimum" : 0.5662, "maximum" : 0.5927 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 23,
"hscan" : { "minimum" : 0.5927, "maximum" : 0.6192 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 24,
"hscan" : { "minimum" : 0.6192, "maximum" : 0.6457 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 25,
"hscan" : { "minimum" : 0.6457, "maximum" : 0.6722 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 26,
"hscan" : { "minimum" : 0.6722, "maximum" : 0.6986 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 27,
"hscan" : { "minimum" : 0.6986, "maximum" : 0.7251 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 28,
"hscan" : { "minimum" : 0.7251, "maximum" : 0.7516 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 29,
"hscan" : { "minimum" : 0.7516, "maximum" : 0.7781 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 30,
"hscan" : { "minimum" : 0.7781, "maximum" : 0.8046 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 31,
"hscan" : { "minimum" : 0.8046, "maximum" : 0.8311 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 32,
"hscan" : { "minimum" : 0.8311, "maximum" : 0.8576 },
"vscan" : { "minimum" : 0.9400, "maximum" : 0.9900 }
},
{
"index" : 33,
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}Danke schon mal für eure hilfe ,
Mfg David
