|Category||Semiconductors => Power Management => Offline and Isolated DC/DC Controllers and Converters => PWM and Resonant Controller|
|Part family||UCC3807-1 Programmable Maximum Duty Cycle PWM Controller|
|Description||Programmable Maximum Duty Cycle PWM Controller 8-SOIC 0 to 70|
|Company||Texas Instruments, Inc.|
|Datasheet||Download UCC3807D-1 datasheet
|Cross ref.||Similar parts: UCC2807DTR-1, UCC2807D-1, UCC3807DTR-1, UCC2807-2, UCC2807-3, UCC3807-2, UCC3807-3, LM3478, LM5001|
|Operating Temperature Range(C)||0 to 70|
|Approx. Price (US$)||1.80 | 1ku|
|UVLO Thresholds On/Off(V)||7.2/6.9|
|Features||Error Amplifier,Leading Edge Blanking,Multi-topology,Soft Start|
|Pin nb||Package type||Ind std||JEDEC code||Package qty||Carrier||Device mark||Width (mm)||Length (mm)||Thick (mm)||Pitch (mm)|
User Programmable Maximum PWM Duty Cycle 100µA Startup Current Operation to 1MHz Internal Full Cycle Soft Start Internal Leading Edge Blanking of Current Sense Signal 1 Amp Totem Pole OutputDESCRIPTION
The UCC3807 family of high speed, low power integrated circuits contains all of the control and drive circuitry required for off-line and DC-to-DC fixed frequency current mode switching power supplies with minimal external parts count. These devices are similar to the UCC3800 family, but with the added feature of a user programmable maximum duty cycle. Oscillator frequency and maximum duty cycle are programmed with two resistors and a capacitor. The UCC3807 family also features internal full cycle soft start and internal leading edge blanking of the current sense input. The UCC3807 family offers a variety of package options, temperature range options, and choice of critical voltage levels. The family has UVLO thresholds and hysteresis levels for off-line and battery powered systems. Thresholds are shown in the table below. Part Number UCCx807-2 UCCx807-3 Turn-on Threshold 12.5V 4.3V Turn-off Threshold 8.3V 4.1V
Supply Voltage (IDD 10mA).13.5V Supply Current.30mA OUT Current.±1A Analog Inputs (FB, CS).-0.3V to (VDD + 0.3V) Power Dissipation J packages).1W Power Dissipation (D package).0.65W Storage to +150°C Junction to +150°C Lead Temperature (Soldering, 10 sec.).+300°C All currents are positive into, negative out of the specified terminal. Consult Packaging Section of Databook for thermal limitations and considerations of packages.
ELECTRICAL CHARACTERISTICS Unless otherwise stated these specifications apply for to +125°C for to +85°C for UCC2807-1/-2/-3; and to +70°C for UCC3807-1/-2/-3; VDD = 10V (Note 330pF, 1.0µF capacitor from VDD to GND, TA = TJ.
PARAMETER Oscillator Section Frequency Temperature Stability Amplitude Error Amplifier Section Input Voltage Input Bias Current Open Loop Voltage Gain COMP Sink Current COMP Source Current PWM Section Maximum Duty Cycle Minimum Duty Cycle Current Sense Section Gain Maximum Input Signal Input Bias Current CS Blank Time Overcurrent Threshold COMP to CS Offset Output Section OUT Low Level OUT High Level Rise / Fall Time TEST CONDITION MIN 175 (Note 5) (Note 1) COMP = 2.0V COMP = 0V (Note 2) COMP = 5.0V (Note TYP 2.5 1/3VDD MAX UNITS 228 kHz mA % V/V nA ns
UCC2807-1/-2/-3 UCC3807-1/-2/-3 ELECTRICAL CHARACTERISTICS (cont.) Unless otherwise stated these specifications apply for to +125°C for to +85°C for UCC2807-1/-2/-3; and to +70°C for UCC3807-1/-2/-3; VDD = 10V (Note 330pF, 1.0µF capacitor from VDD to GND, TA = TJ.
PARAMETER Undervoltage Lockout Section Start Threshold TEST CONDITION UCCx807-1 (Note UCCx807-3 UCCx807-1 (Note = 1.8V, From to 4.0V VDD < Start Threshold (UCCx807-1,-3) VDD < Start Threshold 0V, No Load (Note 7) IDD = 10mA MIN TYP MAX UNITS mA VSoft Start Section COMP Rise Time Overall Section Startup Current
Operating Supply Current VDD Zener Shunt Voltage Shunt to Start Difference Note 1: Measured at TRIG; signal minimum = 1/3 VDD, maximum = 2/3 VDD.
Note 3: Parameter measured at trip point of latch with at 0V. Note 4: Start Threshold and Zener Shunt thresholds track one another. Note 5: Guaranteed by design. Not 100% tested in production. Note 6: Adjust VDD above the start threshold before setting at 10V for UCC3807-2. Note 7: Does not include current in external timing RC network.
COMP: COMP is the output of the error amplifier and the input of the PWM comparator. The error amplifier in the is a low output impedance, 2MHz operational amplifier. COMP can both source and sink current. The error amplifier is internally current limited, which allows zero duty cycle by externally forcing COMP to GND. The UCC3807 family features built-in full cycle soft start. Soft start is implemented as a clamp on the maximum COMP voltage. CS: Current sense input. There are two current sense comparators on the chip, the PWM comparator and an overcurrent comparator. The UCC3807 also contains a leading edge blanking circuit, which disconnects the external CS signal from the current sense comparator during the 100ns interval immediately following the rising edge of the signal at the OUT pin. In most applications, no analog filtering is required on CS. Compared to an external RC filtering technique, leading edge blanking provides a smaller effective CS to OUT propagation delay. Note, however, that the minimum non-zero on-time of the OUT signal is 3 directly affected by the leading edge blanking and the CS to OUT propagation delay. The overcurrent comparator is only intended for fault sensing. Exceeding the overcurrent threshold causes a soft start cycle. FB: The inverting input to the error amplifier. For best stability, keep connections FB as short as possible and stray capacitance as small as possible. GND: Reference ground and power ground for all functions of the part. OUT: The output of a high current power driver capable of driving the gate of a power MOSFET with peak currents exceeding 1A. OUT is actively held low when VDD is below the UVLO threshold. The high current power driver consists of MOSFET output devices in a totem pole configuration. This allows the output to switch from VDD to GND. The output stage also provides a very low impedance which minimizes overshoot and undershoot. In most cases, external Schottky clamp diodes are not required.
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