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TPS2384PJDRG4 Datasheet(PDF) 8 Page - Texas Instruments |
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TPS2384PJDRG4 Datasheet(HTML) 8 Page - Texas Instruments |
8 / 51 page www.ti.com TPS2384 SLUS634D – NOVEMBER 2004 – REVISED MARCH 2007 TERMINAL FUNCTIONS (continued) TERMINAL NO. I/O DESCRIPTION NAME PAP PDJ Analog Signals This is a dual-purpose pin. When tied to an external capacitor this pin sets the internal clock. When the CT pin is grounded the SYN pin turns from a output to an input (see SYN pin description). The timing capacitor and the resistor on the RBIAS pin sets the internal clock frequency of the CT 53 12 I device. This internal clock is used for the internal state machine, integrating A/D counters, POR time out, faults and delay timers of each port. Using a 220-pF capacitor for CT and a 124-k Ω resistor for RBIAS sets the internal clock to 245 kHz and ensure IEEE 802.3af compliance along with maximizing the rejection of 60-Hz line frequency noise from A/D measurements. Bias set resistor. This resistor sets all precision bias currents within the chip. This pin will regulate to 1.25V (V2.5/2) when a resistor is connected between RBIAS and RG. This voltage and RBIAS generate a current which is replicated and used throughout the chip. This resistor also works in RBIAS 55 10 I conjunction with the capacitors on CT and CINT to set internal timing values. The RBIAS resistor should be connected RG. RBIAS is a high impedance input and care needs to be taken to avoid signal injection from the SYN pin or I2C signals. This is a dual purpose pin. When the CT pin is connected to a timing capacitor this output pin is a 0 V to 3.3V pulse of the internal clock which can be used to drive other TPS2384 SYN pins for SYN 52 13 I/O elimination of a timing capacitor. When the CT pin is grounded this pin becomes an input pin that can be driven from a master TPS2384 or any other clock generator signal. AC_LO 51 14 O Totem-pole output pin for AC Disconnect excitation. AC_HI 50 15 O Totem-pole output pin for AC Disconnect excitation. Digital Signals SCL 25 40 I Serial clock input pin for the I2C interface. Serial data input pin for the I2C interface. When tied to the SDA_O pin, this connection becomes the SDA_I 26 39 I standard bi-directional serial data line (SDA) Serial data open drain output for the I2C interface. When tied to the SDA_I pin, this connection SDA_O 27 38 O becomes the standard bi-directional serial data line (SDA). This is a open drain output that can directly drive opto-coupler. The WD_DIS pin disables the watchdog timer function when connected to 3.3 V. The pin has internal WD_DIS 22 43 I 50-k Ω resistor to digital ground. The watchdog timer monitors the I2C clock pin (SCL) and the internal oscillator activity in power management mode and only the internal oscillator activity in auto mode. INTB 20 45 O This is an open-drain output that goes low if a fault condition occurs on any of the 4 ports. When this input is set to logic low there is no back-off time after a discovery failure. When this pin set ALTA/B 21 44 I to a logic high there is a back-off time (approximately 2 seconds) before initiating another discovery cycle. This pin has an internal 50-k Ω resistor pull-down to digital ground. A1 28 37 I A2 29 36 I Address 1 through 5 These are the I2C address select inputs. Select the appropriate binary address A3 30 35 I on these pins by connecting to chip ground for a logic low or tying to the V3.3 pin for a logic high. Each address line has an internal current source pull-down to digital ground. A4 31 34 I A5 32 33 I The MS pin selects either the auto mode (MS low) or the power management mode, PMM, (MS high). This pin can be held low for controller-less standalone applications. When MS is low and the MS 63 2 I POR timing cycle is complete the chip will sequentially Discover, Classify and Power on each port. When MS is set high the ports are controlled by register setting via the I2C bus. The MS pin has an internal 50-k Ω resistor pull-down to analog ground. This pin can be used to override the internal POR. When held low, the I2C interface, all the state machines, and registers are held in reset. When all internal and external supplies are within specification, and this pin is set to a logic high level, the POR delay will begin. The I2C interface and PORB 62 3 I registers will become active within 70 µs of this event and communications to read or preset registers can begin. The reset delay for the remainder of the chip then extinguishes in 1 second. This pin has an internal 50-k Ω resistor pull-down to analog ground. 8 Submit Documentation Feedback |
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