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A fast LED driver prototype for HCAL calibration CALICE meeting at ANL, USA
Ivo Polak, IPASCR, Prague
Proposal for calibration systemFast LED driver is a key part of calibration systemA tunable calibration light in the range 0 to 100MIPSimplification of the optical system: one LED -> one side emitting fibre, one row of scintillator tilesSee Jaras talk Comments on optical system II
Ivo Polak, IoP Prague
LED driver strategy not only for SiPM calibrationAt AHCAL prototype (uses SiPM), we used CMB, calibration system with UV-LED 400nm driven by very fast rectangular pulses (1ns rise/fall time).Steep Rectangular waveform satisfied the needs to vary pulse-width, BUT creates lots of harmonics electromagnetic crosstalk!We have found fixed pulse-width to about 6ns, we can go to use narrow band ->smooth waveform less RF interference = Quasi Resonant LED driver (single pulse)
Ivo Polak, IoP Prague
Quasi-Resonant LED driverLC circuit, heavily dumped 2CH boardprimary testedWith printed Cu inductor 2ns pulse-widthPrototypingUsed my lovely single side copper foil PCBWe need more work on components optimization to recent LED Simulation pulse-width 5ns with 33nH inductance
Ivo Polak, IoP Prague
2CH QRLED board Consists of:Double sided PCB2 QRLED driver2PIN photodiode preampRate generator 1Hz to 10kHzVoltage regulatorsAmplitude controlV-calib and T-calib interface
Ivo Polak, IoP Prague
2CH QRLED boardThere is a detail of two QRLED driverPrinted inductors with taps, left is connected by tin jointTwo trimmers equalize delays between CH A and B
Ivo Polak, IoP Prague
Principal schema of QRLed driverAA
Ivo Polak, IoP Prague
PIN PD response to UVLEDLED current 1V => 1APIN
Ivo Polak, IoP Prague
PIN PD response to UVLEDLED current 1V => 1A
PIN
Ivo Polak, IoP Prague
PIN PD response to UVLEDLED current 1V => 1APIN
Ivo Polak, IoP Prague
Ivo Polak, IoP Prague
Further increase of the LED amplitudeWe see a change of the shapePIN 1mV/divLED current 1V => 1A
Ivo Polak, IoP Prague
Further increase of the LED amplitudeWe see a change of the shapeLED current 1V => 1A
PIN 2mV/div
Ivo Polak, IoP Prague
Maximum amplitude of the LEDWe see a change of the shapeLED current 1V => 1A
PIN 2mV/div
Ivo Polak, IoP Prague
In wider time scale, increase of the amplitude PIN 2mV/div
Ivo Polak, IoP Prague
In wider time scalePIN
Ivo Polak, IoP Prague
In wider time scalePIN
Ivo Polak, IoP Prague
Highest amplitude -> funny distortion PINLED current 1V => 1A At this amplitude LED is shining visible
Ivo Polak, IoP Prague
A response to Slower PMT LED is over full powerPMTLED voltage at cathodesync
Ivo Polak, IoP Prague
PIN crosstalk testPINReference amplitude
LED current 1V => 1A
Ivo Polak, IoP Prague
Optically shielded, same LED amplitude Electrical crosstalk to PIN
NO crosstalk
Ivo Polak, IoP Prague
Different LEDsMore different LEDs will be testedPPT UVLEDs 400nm are very fast!One blue pioneer has been testedEach type of the LED needs a bit of matching of 2 components at QRled driver
Ivo Polak, IoP Prague
Another Blue LED, too slow!2ns -> 10nsPINLED current 1V => 1A
Ivo Polak, IoP Prague
Another Blue LED, too slow!2ns -> 20nsElectrical opticalLED current 1V => 1A
PIN
Ivo Polak, IoP Prague
ConclusionQR LED driver is very promising technique to reduce Electro-Magnetic-Interferences2 PCBs of the two-channel QR LED driver are ready to further testMarch linearity testApril more assembled PCBs to testMay designing of multichannel system with light transfer in side-emitting fibers, first approach to mechanical integration to a new detector design
Ivo Polak, IoP Prague
Backup slides
Ivo Polak, IoP Prague
QR LED driver Simulationoscilloscopeoscilloscope
Ivo Polak, IoP Prague
Simulation at 1.5V amplitudeXSC1: Upper trace - sync pulseLower trace voltage at LED hot end
XSC2: Lower trace LED current
Ivo Polak, IoP Prague
Simulation at 3VXSC1: Upper trace - sync pulseLower trace voltage at LED hot end
XSC2: Lower trace LED current
Ivo Polak, IoP Prague
Tests shows more power on LEDWe see response of PIN photodiode at oscilloscopeAmplitude up to 2mVpeak @ 50
Ivo Polak, IoP Prague
Prototype of QR LED driver
Ivo Polak, IoP Prague
Response to low amplitude at prototypeLED current (cyan) (voltage @ 10Ohm)PIN response (yellow)LED anode (violet)
Ivo Polak, IoP Prague
Response to middle amplitude at prototypePulse width ~ 6ns
Ivo Polak, IoP Prague
Response to high amplitude at prototype200mA current at LEDPulse width ~ 6ns
Ivo Polak, IoP Prague
Response to high amplitude at prototypeThe Light from LED was optically blocked to PIN.
Ivo Polak, IoP Prague
LED Current View of the LED pulse for a small amplitude (0.6 A)
Measured with 1GHz voltage differential probe and 1GHz scope TDS4104 at 1 smd resistor
4ns/div 0.5A/div
Ivo Polak, IoP Prague
LED currentView of the LED pulse for a middle amplitude (1.0 A)
Measured with 1GHz voltage differential probe and 1GHz scope TDS4104 at 1 smd resistor
4ns/div 0.5A/div
Ivo Polak, IoP Prague
LED currentView of the LED current pulse for the highest amplitude (2.3 A) Measured with 1GHz voltage differential probe and 1GHz scope TDS4104 at 1 smd resistor
4ns/div 0.5A/div
Ivo Polak, IoP Prague