SLLSE74D June 2011 – July 2016 TPD12S015A
PRODUCTION DATA.
The TPD12S015A is an integrated interface solution for HDMI 1.3/1.4 interfaces, for both portable and non-portable electronics applications. It has a boost DC-DC converter that uses the 2.3-V to 5.5-V internal power supply and outputs regulated 5-V standard compliant power supply to the cable. This power supply output has current limit and short-circuit protection function. There are bidirectional level shifting and signal conditioning circuits on CEC, SCL, SDA with pullup resistors integrated to minimize the external passive discrete component use. There is also a unidirectional level shifter for HPD signal that translates the 5-V HPD down to VCCA level. The HPD_B port has a glitch filter to avoid false detection due to the bouncing while inserting the HDMI plug. For the eight TMDS lines, there are high-speed ESD diodes on each line to make sure that the system pass 8-kV contact ESD.
The HDMI cable side of the DDC lines incorporates rise-time accelerators to support the high capacitive load on the HDMI cable side. The rise time accelerator boosts the cable side DDC signal independent of which side of the bus is releasing the signal.
The TPD12S015A has incorporated all the required pullup and pulldown resistors at the interface pins. The system is designed to work properly with no external pullup resistors on the DDC, CEC, and HPD lines. For proper system operation, no external resistors must be placed at the A and B ports. If there is internal pullups at the host processor, they must be disabled.
The undervoltage lockout circuit prevents the DC-DC converter from malfunctioning at low input voltages and from excessive discharge of the battery. It disables the output stage of the converter once the falling VIN trips the undervoltage lockout threshold VBATUV. The undervoltage lockout threshold VBATUV for falling VIN is typically 2 V. The device starts operation once the rising VIN trips undervoltage lockout threshold VBATUV again at typical 2.1 V.
The DC-DC converter has an internal soft-start circuit that controls the ramp-up of the output voltage. The output voltage reaches its nominal value within tStart of typically 250 µs after CT_CP_HPD pin has been pulled to high level. The output voltage ramps up from 5% to its nominal value within tRamp of 300 µs. This limits the inrush current in the converter during start-up, and prevents possible input voltage drops when a battery or high impedance power source is used. During soft start, the switch current limit is reduced to 300 mA until the output voltage reaches VIN. Once the output voltage trips this threshold, the device operates with its nominal current limit ILIMF.
The TPD12S015A enables DDC translation from VCCA (system side) voltage levels to 5-V (HDMI cable side) voltage levels without degradation of system performance. The TPD12S015A contains two bidirectional open-drain buffers specifically designed to support up-translation and down-translation between the low voltage, VCCA side DDC-bus and the 5-V DDC-bus. The port B I/Os are overvoltage tolerant to 5.5 V even when the device is unpowered. After power up and with the LS_OE and CT_CP_HPD pins high, a low level on port A (below approximately VILC = 0.08 × VCCA V) turns the corresponding port B driver (either SDA or SCL) on and drives port B down to VOLB V. When port A rises above approximately 0.10 × VCCA V, the port B pulldown driver is turned off, and the internal pullup resistor pulls the pin high. When port B falls first and goes below 0.3 × 5VOUT, a CMOS hysteresis input buffer detects the falling edge, turns on the port A driver, and pulls port A down to approximately VOLA = 0.16 × VCCA V. The port B pulldown is not enabled unless the port A voltage goes below VILC. If the port A low voltage goes below VILC, the port B pulldown driver is enabled until port A rises above (VILC + ΔVT-HYSTA); then port B, if not externally driven LOW, continues to rise being pulled up by the internal pullup resistor.
The CEC level shift function operates in the same manner as the DDC lines except that the CEC line does not need the rise time accelerator function.
The DC-DC converter is enabled when the CT_CP_HPD is set to high. At first, the internal reference is activated and the internal analog circuits are settled. Afterwards, the soft start is activated and the output voltage is ramped up. The output voltage reaches its nominal value in typically 250 μs after the device has been enabled. The CT_CP_HPD input can be used to control power sequencing in a system with various DC-DC converters. The CT_CP_HPD pin can be connected to the output of another converter, to drive the EN pin high and getting a sequencing of supply rails. With CT_CP_HPD = GND, the DC-DC enters shutdown mode.
The TPD12S015A integrates a power save mode to improve efficiency at light load. In power save mode the converter only operates when the output voltage trips below a set threshold voltage. It ramps up the output voltage with several pulses and goes into power save mode once the output voltage exceeds the set threshold voltage. The PFM mode is left and PWM mode entered in case the output current can not longer be supported in PFM mode.
LS_OE | CT_CP_HPD | VCCA | VBAT | 5VOUT | A-SIDE | DDC, B-SIDE | CEC, B-SIDE | CEC LDO | DC-DC & HPD | DDC/CEC | ICC VCCA | ICC VBAT | COMMENT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
PULLUPS | PULLUPS | PULLUPS | VLTs | TYP | TYP | ||||||||
L | L | 1.8 V | 3.3 V | Off | Off | Off | Off | Off | Off | Off | 1 µA | 1 µA | Fully Disabled |
L | H | 1.8 V | 3.3 V | On | On | On | Off | Off | On | Off | 1 µA | 30 µA | DC-DC on |
H | L | 1.8 V | 3.3 V | Off | Off | Off | Off | Off | Off | Off | 1 µA | 1 µA | Not Valid State |
H | H | 1.8 V | 3.3 V | On | On | On | On | On | On | On | 13 µA | 255 µA | Fully On |
X | X | 0 V | 0 V | Off | High-Z | High-Z | High-Z | Off | Off | Off | 0 | 0 | Power Down |
X | X | 1.8 V | 0 V | Off | Low | High-Z | High-Z | Off | Off | Off | 0 | 0 | Power Down |
X | X | 0 V | 3.3 V | Off | High-Z | High-Z | High-Z | Off | Off | Off | 0 | 0 | Power Down |