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TOP DI GAMMA € 1599 anziché €1799 Modello Motore Velocità Inclinazione Caratteristiche principali Prezzo TFK 150 1,75/2,75 HP 0,8 - 14 Km/h manuale su 3 livelli Peso max utente 100 kg Rilevazione cardio Hand Pulse Supporto per tablet in dotazione € 299 anziché € 529 TFK 300 1,75/2,75 HP 0,8 - 14 Km/h manuale su 3 livelli € 399 anziché € 529 TFK 330 evo 1,75/2,75 HP 0,8 - 14 Km/h elettrica 12% su 12 livelli TFK 430 2/3 HP 0,8 - 16 Km/h elettrica 12% su 12 livelli TFK 600 2,5 /3,75 HP 1 - 18 Km/h elettrica 15% su 15 livelli Peso max utente 100 kg Rilevazione cardio Hand Pulse Tasto scelta rapida pulse/calorie Peso max utente 100 kg - Comandi rapidi sul corrimano:
pulse on the input, this memory cell ( or Flip-Flop) can be set, and with a "0"
Setting up the turn counter Analog triggers Analog triggers convert analog signals into digital signals using the cRIO’s FPGA. In order to make the turn counter work, we use an analog trigger to create a digital signal when the potentiometer “wraps around” from 0° to 360° or 360° to 0°. Code sample (creating an analog trigger): AnalogTrigger _analogTrigger = new AnalogTrigger ( channel ); Analog trigger outputs The analog trigger can send outputs in a number of different modes. The two most useful to us here are Rising Pulse and Falling Pulse. Rising Pulse sends a pulse of digital signal when the analog signal changes from a value below the minimum voltage you’ve set (hereafter called the “lower threshold”) to a value above the maximum voltage you’ve set (the “upper threshold”). Falling Pulse sends a pulse when the signal changes from a value above the upper threshold to one below the lower threshold. One of these should pulse whenever you hit the potentiometer’s discontinuity; which one indicates the direction the wheel pod is turning. Code sample (creating analog trigger outputs): AnalogTriggerOutput _analogTriggerFalling = new AnalogTriggerOutput ( _analogTrigger , AnalogTriggerOutput . Type . kFallingPulse ); AnalogTriggerOutput _analogTriggerRising = new AnalogTriggerOutput ( _analogTrigger , AnalogTriggerOutput . Type . kRisingPulse ); Creating the counter To create a turn counter, we need to count the digital pulses of the analog trigger outputs. When one pulses, we should increment the counter; when the other pulses, we should decrement it. Which is which depends on your setup. Code sample (creating the turn counter): Counter _turnCounter = new Counter (); _turnCounter . setUpDownCounterMode (); _turnCounter . setUpSource ( _analogTriggerRising ); _turnCounter . setDownSource ( _analogTriggerFalling ); _turnCounter . start (); The filter, setting the sample rate and threshold voltages Although the potentiometer’s discontinuity normally looks like a straight vertical line of voltage, it isn’t; it’s a very steep, notquitevertical line. Thus, when crossing it, there’s a chance that one of the voltages sampled by the analog trigger will be on that line, which really messes things up. Luckily, you can enable a filter on the analog trigger’s input that samples three points and rejects the one closest to average. In this way, so long as no more than one sampled point in a row lies on the discontinuity and the surrounding points are below / above the lower / upper threshold voltages, the crossing will still be detected. We need to set the sample rate low enough that no more than one point can lie on the line. This graph shows a closeup of the potentiometer’s discontinuity. In theory, so long as the sample rate is slower than the 520 Hz displayed, no more than one point should lie along the line. In practice, I found a huge margin of error beneficial; I went with 50 Hz. However, set the sample rate too low and you run into another problem: the time between samples may be so great that the times when the signal is above the upper threshold or below the lower threshold are missed completely. When you lower the sample rate, you need to lower your upper threshold and raise your lower threshold; doing this too much can result in false positives from things like signal noise. In order to ensure that the value above the upper threshold isn’t missed, the difference between the potentiometer’s real maximum voltage and the upper threshold must be at least equal to the time between samples (in my case, 0.02 seconds) times the maximum rate of change of the voltage. The same must be true of the difference between the potentiometer’s real minimum voltage and the lower threshold. I wound up using a “realthreshold” voltage difference of 0.6V. To get false positives, the two thresholds have to be pretty close; once again, big safety margins are your friend. Code sample (enabling input filtering): _analogTrigger . setFiltered ( true ); Code sample (setting the thresholds): double _sensingVoltageDifference = 0.6; _analogTrigger . setLimitsVoltage ( minVoltage + _sensingVoltageDifference , maxVoltage _sensingVoltageDifference ); Code sample (setting the sample rate): int DEFAULT_ANALOG_MODULE = 1; int ANALOG_SAMPLE_RATE = 50 ; //Hz AnalogModule module = ( AnalogModule ) Module . getModule ( ModulePresence . ModuleType . kAnalog , DEFAULT_ANALOG_MODULE ); module . setSampleRate ( ANALOG_SAMPLE_RATE ); Computing the new degree measurement The end goal of this is to create a potentiometer that reads beyond 360°. To get this reading, simply multiply the turn count by 360° and add the wheel’s current heading. Code sample (reading the new degree measurement): double heading = ((( voltage _minVoltage ) * ( 360.0 / _maxVoltage ))) % 360.0; double degrees = heading + ( _turnCounter . get () * 360.0 ); Putting it all together Here’s my final code. I don’t know if things need to be in this order (as opposed to the order presented above) but it certainly works for me. // Constants // private static final int ANALOG_SAMPLE_RATE = 50; private static final int DEFAULT_ANALOG_MODULE = 1 ; private static final double _sensingVoltageDifference = 0.6; // Global fields // private AnalogTrigger _analogTrigger; private Counter _turnCounter; private AnalogTriggerOutput _analogTriggerFalling; private AnalogTriggerOutput _analogTriggerRising; // In potentiometer's constructor // _analogTrigger = new AnalogTrigger ( channel ); _analogTrigger . setFiltered ( true ); _analogTrigger . setLimitsVoltage ( minVoltage + _sensingVoltageDifference , maxVoltage _sensingVoltageDifference ); _analogTriggerFalling = new AnalogTriggerOutput ( _analogTrigger , AnalogTriggerOutput . Type . kFallingPulse ); _analogTriggerRising = new AnalogTriggerOutput ( _analogTrigger , AnalogTriggerOutput . Type . kRisingPulse ); AnalogModule module = ( AnalogModule ) Module . getModule ( ModulePresence . ModuleType . kAnalog , DEFAULT_ANALOG_MODULE ); module . setSampleRate ( ANALOG_SAMPLE_RATE ); _turnCounter = new Counter (); _turnCounter . setUpDownCounterMode (); _turnCounter . setUpSource ( _analogTriggerRising ); _turnCounter . setDownSource ( _analogTriggerFalling ); _turnCounter . start (); // getDegrees() function // double heading = ((( voltage _minVoltage ) * ( 360.0 / _maxVoltage ))) % 360.0; double degrees = heading + _offsetDegrees + ( _turnCounter . get () * 360.0 ); //I have an "offset" that allows me to compensate for potentiometers that aren't installed exactly straight
Lutz Tau 94%
Lutz Tau Name HQ Darkstrider epicroster.com WS BS S T W At I Ld Sv Type Cst All Cst 4 5 3 3 3 3 3 9 5+ In(Ch) 100 Recon Armour, Pulse Carbine, Photon Grenades, Blacksun Filter, Markerlight, Structural Analyser, 100 2 3 3 3 1 1 2 7 4+ In 63 Combat Armour, Photon Grenades, Pulse Rifle(6), Bonding Knife Ritual(6), EMP Grenades(6), 2 3 3 3 1 1 2 8 4+ In(Ch) 43 Combat Armour, Photon Grenades, Pulse Rifle, Gun Drone(2), 3 FA:12 SA:11 BA:10 HP:3 Tank 88 Burst Cannon, Two Gun Drones, Seeker Missile, 2 3 3 3 1 1 2 7 4+ In 63 Combat Armour, Photon Grenades, Pulse Rifle(6), Bonding Knife Ritual(6), EMP Grenades(6), 2 3 3 3 1 1 2 8 4+ In(Ch) 43 Combat Armour, Photon Grenades, Pulse Rifle, Gun Drone(2), 4 3 3 3 1 1 3 7 6+ In 92 Kroot Armour, Kroot Rifle, Sniper Round(14), 4 3 3 3 1 2 2 8 6+ In(Ch) 21 Kroot Armour, Kroot Rifle, 4 3 6 3 2 1 3 7 6+ In 0 Kroot Armour, Kroot Gun, 4 0 3 3 1 2 5 6 + Beast 0 194 2 3 3 3 1 1 2 7 5+ In 90 Recon Armour, Photon Grenades, Pulse Carabine, Markerlight, Rail Rifle(3), Bonding Knife Ritual(4), EMP Grenades(4), 2 3 3 3 1 1 2 8 5+ In(Ch) 45 Recon Armour, Photon Grenades, Pulse Carabine, Markerlight, Gun Drone(2), 3 FA:11 SA:10 BA:10 HP:3 Sk F 56 OT Two Gun Drones, Burst Cannon, Seeker Missile(2), 135 2 3 5 4 2 2 2 8 3+ JPk 130 Crisis Battlesuit, Missile Pod, TL Missile Pod, Gun Drone(4), Bonding Knife Ritual(3), 2 3 5 4 2 3 2 9 3+ JPk(Ch) 91 Crisis Battlesuit, Missile Pod, TL Missile Pod, Gun Drone(2), 2 3 5 4 2 2 2 8 3+ JPk 130 Crisis Battlesuit, Missile Pod, TL Missile Pod, Gun Drone(4), Bonding Knife Ritual(3), 2 3 5 4 2 3 2 9 3+ JPk(Ch) 91 Crisis Battlesuit, Missile Pod, TL Missile Pod, Gun Drone(2), 2 3 6 6 5 3 2 9 2+ Mc 180 Riptide Battlesuit, Riptide Shield Generator, Heavy Burst Cannon, TL SMS, 2 3 5 4 2 2 2 8 3+ JPk 130 Crisis Battlesuit, Missile Pod, TL Missile Pod, Gun Drone(4), Bonding Knife Ritual(3), 2 3 5 4 2 3 2 9 3+ JPk(Ch) 91 Crisis Battlesuit, Missile Pod, TL Missile Pod, Gun Drone(2), 2 3 4 3 1 2 2 8 3+ Beast 68 Stealth Battlesuit, Burst Cannon, Fusion Blaster, Bonding Knife Ritual(3), 2 3 4 3 1 3 2 9 3+ JPk(Ch) 64 221 Troops Fire Warrior Team(5) Fire Warrior Shas'ui Devilfish Fire Warrior Team(5) Fire Warrior Shas'ui Kroot Squad(13) Shaper Krootox Rider(0) Kroot Hound(0) Fast Attack Pathfinder Team(3) Pathfinder Shas'ui Piranha 106 113 56 Elites XV8 Crisis Team(2) Crisis Shas'vre XV8 Crisis Team(2) Crisis Shas'vre XV104 Riptide XV8 Crisis Team(2) Crisis Shas'vre Stealth Team(2) Stealth Shas'vre http://www.epicroster.com/print.jsp 221 180 221 132 1/3 10/1/2015 warhammer 40k calculator Stealth Battlesuit, Burst Cannon, Gun Drone(2), Wargear Recon Armour Pulse Carbine Photon Grenades Blacksun Filter Markerlight Structural Analyser Combat Armour Pulse Rifle Bonding Knife Ritual EMP Grenades Gun Drone Burst Cannon Two Gun Drones Seeker Missile Kroot Armour Kroot Rifle Sniper Round Kroot Gun Pulse Carabine Rail Rifle Crisis Battlesuit Missile Pod Twinlinked Missile Pod Riptide Battlesuit Riptide Shield Generator Heavy Burst Cannon Twinlinked Smart Missile System Stealth Battlesuit Fusion Blaster Special Rules Independent Character Fight On Foot Fighting Retreat Outflank Scouts Supporting Fire Infiltrate Move Through Cover Stealth (Forest) Bulky Acute Senses Very Bulky http://www.epicroster.com/print.jsp 5+ save 18" R S:5 AP:5, Assault 2, Pinning Defensive Grenades Night Vision and immune to Blind R:36" S: AP:, Heavy 1, Target Aquired; Each time the unit suffers a hit, place a single counter next to it. Any units that shoot at the same target later in that phase may spent these markers to gain bonus:; Pinpoint (1+ markers): All models in the firing unit gain +1 BS per each marker spent; Scour (2 markers): All weapons in the firing unit have Ignores cover; Seeker (1+ markers): The firing unit may launch a single Seeker Missile per each marker spent with the following rules:; Missile does not need LOS,; It must be fired at the same target as the other vehicle's other weapons,; It is resolved at BS:5,; It has Ignores cover.; It does not reduced number of weapons a vehicle can fire at its full BS,; It does count towards limit of 2 missiled that a flyer can fire each turn save 4+ 30" R S:5 AP:5, Rapid Fire Model benefits from Heroic Morale, even if they are not accompanied by an Independent Character Haywire Grenades Gun Drone 18" R S:5 AP:5, Assault 4 Two Gun Drones R:72" S:8 AP:3, Heavy 1; One Use Only armour save 6+ [Pulse rounds]: 24" R S:4 AP:6, Rapid Fire; [Melee]: S:U AP:5, Melee, Twohanded 24" R S:X AP:6, Heavy 1, Sniper 48" R S:7 AP:4, Rapid Fire 18" R S:5 AP:5, Assault 2, Pinning 30" R S:6 AP:1, Rapid Fire + Blacksun Filter; + Multitracker; 3+ Armour Save 36" R S:7 AP:4, Assault 2 36"R S:7 AP:4, Assault 2, Twinlinked + Blacksun Filter; + Multitracker; 2+ Armour Save 5+ invulnerable save [Standard]: 36" R S:6 AP:4, Heavy 8; [NovaCharge]: 36" R S:6 AP:4, Heavy 12, Gets Hot, Rending, NovaCharge 30" R S:5 AP:5, Heavy 4, Ignores Cover, Homing, Twinlinked Stealth Battlesuit 18" R S:8 AP:1, Assault 1, Melta Independent Character Can only join Fire Warriors or Pathfinders Darkstrider and unit Consolidate after firing Overwatch Outflank special Rule Scouts special rule When an enemy charges, all friendly models with this special rule in units within 6" of the unit being charged can choose to fire Overwatch Infiltrate special rule now ignores Dangerous Terrain +1 Cover Save In Forest Counts as 2 models in transports The unit may reroll to see which table edge they enter from Counts as 3 models in transports 2/3 10/1/2015 Nova Reactor http://www.epicroster.com/print.jsp warhammer 40k calculator Declare an attempt to use the reactor at the start of each of its Movement phases. If using the reactor, roll a D6. On a 12, the Riptide fails and suffers a Wound (no saves allowed).
HIOKI PW3360 ENG 93%
9804-01 Magnetic Adapter (red) usage example Magnet in the tip Generally compatible with M6 pan screws 5 Loaded with More Useful Functions Simultaneous Measurements Pulse Input Simultaneously measures three single-phase 2-wire circuits in the same system.
Most of the transmitters used to date in the experimentation have been pulse modulated with no information placed on the signal.
Effects of the stimulation conditions on dopamine release in the NAc and norepinephrine release in the vBNST Subsecond changes of dopamine and norepinephrine concentration simultaneously elicited by various electrical stimulation parameters (stimulation frequency, pulse number and pulse width) were investigated and compared (Fig.
HIOKI MR8875 ENG 90%
Example of module combinations Analog Unit MR8901 Voltage/Temp Unit MR8902 Strain Unit MR8903 CAN Unit MR8904 ×1 ×1 ×1 ×1 3 Applications For inverter and motor testing High-voltage input (MR8905) Primary- and secondary-side measurement of UPS power supply and commercial power supply transformers Record inverter primary- and secondary-side waveforms Torque sensor Clamp On Sensor 9272-10 Strain Encoder Motor Inverter Load Sensor Unit 9555-10 Example of module combinations Torque meter •Torque •Rotation Analog Unit MR8905 × 2 (Up to 4 high-voltage channels) Pulse input Analog Unit MR8901 × 2 (Up to 4 low-voltage channels) (Up to 4 current sensor output channels) Testing of EV batteries 1000 V DC (CAT II) Measure ECU and EV inverter output waveforms With the MR8905 Analog Unit, the MR8875 can measure the voltage of individual battery cells—a process that requires high precision and high resolution—at 16 bits of resolution (1/1250 of the range).
2011 Colinet CBP 90%
A 2-h warming pulse has been proven to be an optimal recovery duration in several models (e.g.
The pulsed TIG welding parameters such as Peak current, Base current, Pulse on time, Frequency and Shielding gas are consider as the input parameters.
For initial broad spectrum diagnosis and overall assessment of the status of concrete,ultrasonic pulse velocity technique was adopted.
HIOKI LR8400 ENG 87%
All input channels for measuring temperature (with thermocouples), or voltage are isolated for safety, culminating in a powerful multi-measurement system that also offers pulse and logic inputs.
To be able to expect that a certain beat will follow previously heard regular beats, allows humans to generate motor movements that can be in sync with the pulse of music.
HIOKI LR8431 ENG 85%
176 mm (6.93 in) W × 101 mm (3.98 in) H × 41 mm (1.61 in) D, 550 g (19.4 oz) Provides ten electrically isolated analog input channels for measuring voltage and temperature, plus four pulse-counting input channels.
__________ Takes or verbalizes appropriate PPE precautions 1 Determines the scene/situation is safe 1 Attempts to question any bystanders about arrest events 1 Checks patient responsiveness 1 Assesses breathing and pulse simultaneously – Assesses patient for signs of breathing [observes the patient and determines the 2 absence of breathing or abnormal breathing (gasping or agonal respirations)] (1 point) – Checks carotid pulse [no more than 10 seconds] (1 point) Immediately begins chest compressions [adequate depth and rate;
The pulse width is in the range of 10 nanoseconds to 1 microsecond.