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TS9004ISN16T Fiches technique(PDF) 9 Page - Touchstone Semiconductor Inc |
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TS9004ISN16T Fiches technique(HTML) 9 Page - Touchstone Semiconductor Inc |
9 / 12 page TS9004 TS9004DS r1p0 Page 9 RTFDS THEORY OF OPERATION The TS9004 quad, low-voltage, micropower analog comparator provides excellent flexibility and performance while sourcing continuously up to 40mA of current. The TS9004 draws 8µA (max) for all 4 comparators, including the reference. It exhibits an input offset voltage of ±4.5mV, and has an on-board +1.182V ±0.75% voltage reference. To minimize glitches that can occur with parasitic feedback or a less than optimal board layout, the design of the TS9004 output stage is optimized to eliminate crowbar glitches as the output switches. Power-Supply and Input Signal Ranges The TS9004 can operate from a single supply voltage range of +2.5V to +11V, provides a wide common mode input voltage range of V- to V+ - 1.3V, and accept input signals ranging from V- to V+ - 1V. The inputs can accept an input as much as 300mV above and below the power supply rails without damage to the part. While the TS9004 is able to operate from a single supply voltage range, a GND pin is available that allows for a dual supply operation with a range of ±1.25V to ±5.5V. If a single supply operation is desired, the GND pin needs to be tied to V-. In a dual supply mode, the TS9004 is compatible with TTL/CMOS with a ±5V voltage. Low-Voltage Operation: V+ = 1.5V The TS9004 can operate down to a supply voltage of 2V; however, as the supply voltage reduces, the TS9004 supply current drops and the performance is degraded. When the supply voltage drops to 2.2V, the reference voltage will no longer function; however, the comparators will function down to a 1V supply voltage. Furthermore, the input voltage range is extended to just below 1V the positive supply rail. For applications with a sub-2.5V power supply, it is recommended to evaluate the circuit over the entire power supply range and temperature. Comparator Output The TS9004 has a GND pin that allows the output to swing from V+ to GND while the V- pin can be set to a voltage below GND as long as the voltage difference between V+ and V- is within 11V. Having a different voltage on V- will not affect the output swing. For TTL applications, V+ can be set to +5V±10% and V- can be set anywhere between 0V and -5V±10%. Furthermore, the output design of the TS9004 can source and sink more than 40mA and 5mA, respectively, while simultaneously maintaining a quiescent current in the microampere range. If the power dissipation of the package is maintained within the max limit, the output can source pulses of 100mA of current with V+ set to +5V. In an effort to minimize external components needed to address power supply feedback, the TS9004 output does not produce crowbar switching current as the output switches. With a 10mV input overdrive, the propagation delay of the TS9004 is 17 μs. Voltage Reference The TS9004 has an on-board 1.182V reference voltage with an accuracy of ±0.75%. The REF pin is able to source and sink 20μA and 10μA of current, respectively. The REF pin is referenced to V- and it should not be bypassed. Noise Considerations Noise can play a role in the overall performance of the TS9004. Despite having a large gain, if the input voltage is near or equal to the input offset voltage, the output will randomly switch HIGH and LOW. As a result, the TS9004 produces a peak-to-peak noise of about 0.3mVPP while the reference voltage produces a peak-to-peak noise of about 1mVPP. Furthermore, it is important to design a layout that minimizes capacitive coupling from a given output to the reference pin as crosstalk can add noise and as a result, degrade performance. APPLICATIONS INFORMATION Hysteresis As a result of circuit noise or unintended parasitic feedback, many analog comparators often break into oscillation within their linear region of operation especially when the applied differential input voltage approaches 0V (zero volt). Externally-introduced hysteresis is a well-established technique to stabilizing analog comparator behavior and requires external components. As shown in Figure 1, adding comparator hysteresis creates two trip points: VTHR (for the rising input voltage) and VTHF (for the falling input voltage). The hysteresis band (VHB) is defined as the voltage difference between the two trip points. When a comparator’s input voltages are equal, hysteresis effectively forces one comparator input to move quickly past the other input, moving the input |
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