QT112-ISG

QT11x VARIATIONS QT111 QT112 QT115 Longer recalibration timeouts Faster response time Variable gain, daisy-chaining 4 August 2004 Copyright QRG Ltd. (UK) 4 August 2004 Quantum Research Group Ltd. QT111-I / QT111H-I QProx™ 8-pin Sensor See QT110 datasheet for primary information. This sheet only lists differences with the QT110. This part is only available in -I suffix (-40..+85C) Description The QT111 is a touch sensor IC having recalibration timeouts (“max on-duration”) of 5 minutes and infinity. This allows the device to be used in situations where recalibration timeouts are not desired, for example in certain consumer, machine tool and process control applications where continuous touch over long periods is desired, like hand-on-joystick sensors, dead-man switches, etc. Although the primary application of the device is still as a ‘touch sensor’, longer timeouts also aknowledge alternate uses for the QT110 family, for example in process controls. Differences with QT110 The QT111 sensor is exactly the same in all respects to the QT110 with the following exceptions shown in bold (refer to Table 2-1 in the QT110 datasheet): Table 2-1 Output Mode Strap Options Tie Pin 3 to: Tie Pin 4 to: Max OnDuration DC Out Vdd Vdd 300s DC Out Vdd Gnd infinite Toggle Gnd Gnd 300s Pulse Gnd Vdd 300s All other operating modes, specifications, and wiring should be read from the QT110 data sheet. QT111H Version The QT111H version is the same as the QT111 except has an active-high output. Cautionary Notes Care should be taken in infinite timeout mode that the Cs and Cx capacitances and the Vcc supply do not drift substantially over the course of a detection; if any of these parameters change sufficiently during the course of an active detection (remember: drift compensation is never performed during a detection event) the sensor can either ‘stick on’ after the detected object is removed, or, the QT110’s apparent sensitivity will be substantially reduced for a period of time until drift compensation can recover the proper reference level. If possible, uses the lowest gain setting when using with long timeouts. If the sensor ‘sticks on’ after the detected object or substance is removed from the sense element, the only way to clear the sensor may be to remove power momentarily in order to induce a full recalibration. Package Marking - QT111-I DIP Package: DIP devices are marked 'QT111' SO8 Package: Marked 'QT1 Y' Package Marking - QT111H-I DIP Package: Not offered SO8 Package: Marked 'QT1 C' QT111 QProx™ 8-pin Sensor © 1999 QRG Ltd. 4 August 2004 Quantum Research Group Ltd. QT112-I / QT112H-I QProx™ 8-pin Sensor See QT110 datasheet for primary information. This sheet only lists differences with the QT110. This part is only available in -I suffix (-40..+85C) Description The QT112 is a variant of the QT110 having a faster response time of 49ms worst case, and 25ms typical. It is designed for those touch sensing applications where faster speed is paramount, for example in games and toys where rapid reaction time is critical, or in machine tool controls where speed is important. It trades off power consumption for speed. Also, note that the device has a consensus filter count 2 instead of 4, and does not have an acoustic driver for a piezo 'beeper'. Differences with the QT110 The QT112 sensor is exactly the same in all respects to the QT110 with the following exceptions (refer to Tables 4.3, 4.4, and 4.5 in the QT110 datasheet): 4.3 AC SPECIFICATIONS Vdd = 3.0, Ta = recommended operating range Description Parameter Min Typ Max Units TBS Burst spacing interval 24 ms TR Response time 49 ms Notes 4.4 SIGNAL PROCESSING Description Min Consensus filter length Typ Max 2 Units Notes samples Positive drift compensation rate 1,250 ms/level Negative drift compensation rate 24 ms/level 4.5 DC SPECIFICATIONS Vdd = 3.0V, Cs = 10nF, Cx = 5pF, Ta = recommended range, unless otherwise noted Parameter IDD Description Min Typ Supply current 60 Max Units Notes µA Piezo Driver Note: The piezo acoustic driver has been removed, as the duration required to operate the beeper would interfere with the sensing interval and slow down the device. QT112H Version The QT112H version is the same as the QT112 except with an active-high output. All other operating modes, specifications, and wiring should be taken from the QT110 data sheet. Package Marking - QT112-I DIP Package: DIP devices are marked 'QT112' SO8 Package: Marked 'QT1 2I' Package Marking - QT112H-I DIP Package: DIP devices are marked 'QT112H' SO8 Package: Marked 'QT1 M' QT112 QProx™ 8-pin Sensor © 1999 QRG Ltd. 4 August 2004 Quantum Research Group Ltd. QT115-I / QT115H-I QProx™ 8-pin Sensor See QT110 datasheet for primary information. This sheet only lists differences with the QT110. This part is only available in -I suffix (-40..+85C) Description The QT115 is a variant of the QT110 having variable sensitivity and the ability to daisy-chain, allowing multiple QT115's to be used in immediate proximity to each other to create a small touch panel of up to 10 keys. Like the QT113, it has a variable threshold which can be modified by simply altering the value of the sample capacitor Cs, which acts to modify gain. It does not include any of the option jumpers found on the QT110 or QT113; instead it has a single option jumper for 'Master' or 'Slave' mode operation. The QT115 includes 'Sync Out' and 'Sync In' pins for daisy-chaining. The first IC in the chain is the Master while the remaining devices in the chain are slaves. Daisy-chaining lets each device take its turn in generating a burst, free from interference by the other QT devices. In Master mode the IC operates autonomously, and generates a 20us negative Sync Out pulse on pin 3 after each burst. In Slave mode the IC issues a detection burst only after it receives a negative Sync pulse on pin 4 from a prior device in the chain, which could be another Slave or a Master. Slave devices in turn issue a 20us Sync pulse after each burst on pin 3. The QT115 is designed for contact and prox sensing applications where high sensitivity is paramount, for example when sensing through thick panels or windows or for security monitoring. The QT115 trades off power consumption for speed and sensing range. Also, note that the device has a consensus filter count of 3 instead of 4, and does not have the drive capability for a piezo 'beeper'. If desired, the Master device can be eliminated and the chain of Slave devices can be mastered from an external pulse source of 20us negative pulses at the desired repetition rate. This potentially allows for faster operation. Differences with the QT110 The QT115 IC is exactly the same in all respects to the QT110 with the following exceptions (refer to Tables 5.2, 5.3, 5.4, and 5.5 in the QT110 datasheet). 5.2 RECOMMENDED OPERATING CONDITIONS Cx Load Capacitance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 100pF Cs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10nF to 500nF 5.3 AC SPECIFICATIONS Parameter TBS1 TBS2 VDD = 3.0, TA = RECOMMENDED OPERATING RANGE Description Burst spacing interval, master Burst spacing interval, slave TBL Burst length TR Response time Min Typ 30 40 Max Units 2 Notes ms Cs = 10nf to 500nf, Cx = 0 ms Cs = 10nf, Cx = 0 0.5 75 ms Cs = 10nf to 500nf, Cx = 0 8 300 ms Note 1 Note 1: Lengthens with increasing Cs but decreases with increasing Cx; see Chart 3. 5.4 SIGNAL PROCESSING Description Min Typ Max Units Threshold differential, fixed 6 counts Hysteresis 17 % Consensus filter length 3 samples 1,800 ms/level Negative drift compensation rate 40 ms/level Post-detection recalibration timer duration 10 secs Positive drift compensation rate Notes Note 1 w.r.t. threshold cts. Note 1: All percentage thresholds have been eliminated and replaced with a fixed threshold w.r.t. the reference level QT113 QProx™ 8-pin Sensor © 1999 QRG Ltd. 4 August 2004 Quantum Research Group Ltd. 5.5 DC SPECIFICATIONS VDD = 3.0V, CS = 10NF, CX = 10PF, TA = RECOMMENDED RANGE Parameter Description IDD Supply current, master mode 60 µA Cs = 10nF to 100nF IDD Supply current, slave mode 700 µA Cs = 10nF to 100nF fF Typical, see figs 1, 2; Note 1, 2 S Min Sensitivity range 1,000 Typ - Max Notes Units 28 Note 1: All percentage thresholds have been eliminated and replaced with a fixed threshold w.r.t. reference level Note 2: Sensitivity depends on value of Cx and Cs. Refer to Charts 1, 2. Piezo Driver Note The piezo acoustic driver has been removed, as the duration required to operate the beeper would interfere with the sensing interval and slow down the device. Sensitivity Adjustment Note The device has a fixed threshold point of 6 counts of deviation. Gain pin adjustment (pin 5) has been eliminated and replaced with a strap option for Master / Slave mode: Table 1-1 Master/Slave Strap Options Mode Tie Pin 5 to: Master Vdd Slave Gnd The sensitivity of the circuit is governed by the relative sizes of Cs and Cx. A detection is made if the signal rises by 6 counts from the reference level; this amount, unlike the QT110, is not ratiometric to the signal level and therefore the sensitivity can be altered by simply changing Cs. To provide a consistent level of sensitivity, only stable types of capacitors are recommended for Cs, such as NPO, C0G, PPS film, and certain types of polycarbonate when used over normal room temperature ranges. Larger values of Cs will make the sensor more sensitive, while larger amounts of Cx will desensitize it (see Charts 1, 2). Minimizing stray Cx is crucial if high levels of sensitivity are desired. By using values of Cs around 0.47uF (470nF), proximity distances of several centimeters can easily be obtained from small electrodes. NOTE: It is extremely important to maintain stable levels of Vdd, as the supply is used as a reference. Minor fluctuations in Vdd WILL cause false triggers or rapid swings in gain. DO NOT use bench power supplies or supply circuits shared with other digital functions. Ordinary 78L05 class regulators are fine in almost all cases. The QT115 is an extremely sensitive device... do not take power supply issues lightly. Pin Functions The QT115 pins are defined as shown: Table 2-1 QT115 Pin Functions PIN Function Description 1 Vdd Power, +3V to +5V 2 Out Active-low output 3 Sync Pulse Out (master or slave mode) 20us nominal negative sync pulse 4 Sync Pulse In (slave mode only) >10us,