PT6460 Series 14-A 5-V Input Adjustable Integrated Switching Regulator SLTS178B - JANUARY 2003 - REVISED JUNE 2003 Features * * * * * * * * 5 V Input 14 A Output Current Low-Profile (8mm) DSP Compatible >90 % Efficiency Adjustable Output Voltage On/Off Inhibit Pre-Bias Start-up Capability Description Ordering Information The PT6460 ExcaliburTM series of integrated switching regulators (ISRs) combines outstanding power density with a comprehensive list of features. They are an ideal choice for applications where board space is a premium and performance cannot be compromised. These modules provide a full 14 A of output current, yet are housed in a low-profile, 12-pin, package that is almost half the size of the previous product generation. The integral copper case construction requires no heatsink, and offers the advantages of solderability and a small footprint (0.64 in for suffix `N'). Both through-hole and surface mount pin configurations are available. The PT6460 series operates from a 5-V input bus and provides a convenient point-of-load power source for the industry's latest high-performance DSPs and microprocessors. The series includes output voltage options as low as 1.0 VDC. Other features include external output voltage adjustment, on/off inhibit, pre-bias startup, short circuit protection, and an output remote sense. PT6461H PT6462H PT6463H PT6464H PT6465H PT6466H PT6467H * * * * Over-Current Protection Output Remote Sense Optional Output Capacitor Small Footprint (0.64 in, Suffix `N') * Surface Mount Compatible * IPC Lead Free 2 Pin-Out Information Pin Function = 3.3 Volts = 2.5 Volts = 2.0 Volts = 1.8 Volts = 1.5 Volts = 1.2 Volts = 1.0 Volts PT Series Suffix (PT1234 x ) Case/Pin Configuration Order Suffix N A C Vertical Horizontal SMD 1 Inhibit* 2 3 Vin Vin 4 Vin 5 GND 6 7 GND GND 8 GND 9 Vout Package Code 10 11 Vout (+)Sense (EPH) (EPJ) (EPK) 12 Vo Adjust (Reference the applicable package code drawing for the dimensions and PC board layout) * Denotes negative logic: Open = Output enabled Ground = Output disabled Standard Application Vo Adjust +VSENSE VIN 2-4 11 1 + CIN 470 F (Required) VOUT 9-10 PT6460 5-8 COUT 330 F (Optional) + 12 L O A D Inhibit GND GND Cin = Required 470 F Cout = Optional 330 F For technical support and more information, see inside back cover or visit www.ti.com PT6460 Series 14-A 5-V Input Adjustable Integrated Switching Regulator Specifications SLTS178B - JANUARY 2003 - REVISED JUNE 2003 (Unless otherwise stated, T a =25 C, V in =5 V, Cin =470 F, C out =0 F, and I o =I omax) PT6460 SERIES Typ Max Characteristics Symbols Conditions Min Output Current Input Voltage Range Set-Point Voltage Tolerance Temperature Variation Line Regulation Load Regulation Total Output Variation Io Vin Vo tol Regtemp Regline Regload Regtot Vin =5 V Over Io range 0 4.5 -- -- -- -- -- -- -- 0.5 10 12 14 5.5 2 -- -- -- A V %Vo %Vo mV mV -- -- 3 %Vo Efficiency -- -- -- -- -- -- -- -- 94 93 91 90 88 86 84 25 -- -- -- -- -- -- -- -- mVpp -- -- -- -- -- 50 100 27.5 15 (1) 300 -- -- -- -- -- Sec mV A % kHz Vin -0.5 -0.2 -- -- 470 (3) 0 -40 (5) -- -40 -- -- -10 5 -- 330 (4) (5) -- -- -- Open (2) 0.8 -- -- -- 3,300 85 (6) 215 (7) 125 A mA F F C C C 8.0 -- -- 106 Hrs -- 500 -- G -- -- -- 20 20 10 -- -- -- G Vo Ripple (pk-pk) Transient Response Over-Current Threshold Output Voltage Adjust Switching Frequency Inhibit Control (pin1) Input High Voltage Input Low Voltage Input Low Current Inhibit Input Current External Input Capacitance External Output Capacitance Operating Temperature Range Solder Reflow Temperature Storage Temperature Reliability Vr ttr Vtr ITRIP Vo adj s VIH VIL IIL Iin inhibit Cin Cout Ta Treflow Ts MTBF Mechanical Shock Mechanical Vibration Weight Flammability -- -- -40 C <Ta < +85 C Over Vin range Over Io range Includes set-point, line, load, -40 C Ta +85 C PT6461 (3.3 V) Io =10 A PT6462 (2.5 V) PT6463 (2.0 V) PT6464 (1.8 V) PT6465 (1.5 V) PT6466 (1.2 V) PT6467 (1.0 V) 20MHz bandwidth 1 A/s load step, 50 to 100 % I omax, Cout =330 F Recovery Time Vo over/undershoot Reset, followed by auto-recovery Over Vin and Io ranges Referenced to GND (pins 5-8) Pin 1 to GND Pin 1 to GND Over Vin range Surface temperature of module pins or case -- Per Bellcore TR-332 50 % stress, Ta =40 C, ground benign Mil-STD-883D, Method 2002.3 Half Sine, mounted to a fixture Mil-STD-883D, Method 2007.2, Suffix N 20-2000 Hz, PCB mounted Suffixes A, C -- Materials meet UL 94V-0 (8) (8) Units % V grams Notes: (1) This is a typical value. For the adjustment limits of a specific model consult the related application note on output voltage adjustment. (2) The Inhibit control (pin 1) has an internal pull-up, and if left open-circuit the module will operate when input power is applied. A small low-leakage (<100 nA) MOSFET is recommended to control this input. See application notes for more information. (3) A 470 F electrolytic input capacitor is required for proper operation. The capacitor must be rated for a minimumm of 0.7 Arms of ripple current. (4) An external output capacitor is not required for basic operation. Adding 330 F of distributed capacitance at the load will improve the transient response. (5) For operation below 0 C, COUT should have stable characteristics. Use either low-ESR tantalum or Oscon(R) type capacitors. (6) See SOA curves or consult factory for the appropriate derating. (7) During solder reflow of SMD package version do not elevate the module case, pins, or internal component temperature above a peak of 215 C. For further guidance refer to the application note, "Reflow Soldering Requirements for Plug-in Power Surface Mount Products," (SLTA051). (8) The case pins on the through-hole package types (suffixes N & A) must be soldered. For more information see the applicable package outline drawing. For technical support and more information, see inside back cover or visit www.ti.com PT6460 Series 14-A 5-V Input Adjustable Integrated Switching Regulator SLTS178B - JANUARY 2003 - REVISED JUNE 2003 Pin Descriptions VIN: The positive supply voltage input for the module with respect to the common GND. GND: The common node to which the input, output, and external control signals are referenced. Vo Adjust: This pin is used to trim the output voltage over a typical range of 15 % of nominal. The adjustment method uses an external resistor. The resistor is connected from Vo Adjust to either the GND or (+)Sense, in order to adjust the output either up or down, respectively. Consult the related application note for the adjust limits on a specific part. Inhibit*: This is an open-collector (open-drain) negative logic input that is referenced to GND. Pulling this pin low disables the module's output voltage. If Inhibit* is left open-circuit, the output will be active whenever a valid input source is applied. Vsense: An external remote sense input is provided to allow the regulation circuit to compensate for voltage drop between the module and the load. For optimal voltage accuracy Vsense should be connected to VOUT. If desired, Vsense may also be left open circuit. VOUT: This is the regulated output voltage from the module with respect to the common GND. Typical Characteristics Performance Data; Vin =5.0 V (See Note A) Power Dissipation vs Output Current Efficiency vs Output Current 5 100 4 PT6461 PT6462 PT6463 PT6464 PT6465 PT6466 PT6467 80 70 Pd - Watts Efficiency - % 90 3 2 1 60 0 50 0 2 4 6 8 10 12 0 14 2 4 6 8 Iout (A) Iout (A) Output Ripple vs Output Current 50 Ripple - mV 40 PT6462 PT6463 PT6464 PT6461 PT6465 PT6466 PT6467 30 20 10 0 0 2 4 6 8 10 12 14 Iout (A) Note A: Characteristic data has been developed from actual products tested at 25C. This data is considered typical data for the ISR. For technical support and more information, see inside back cover or visit www.ti.com 10 12 14 Typical Characteristics PT6460 Series 14-A 5-V Input Adjustable Integrated Switching Regulator SLTS178B - JANUARY 2003 - REVISED JUNE 2003 Safe Operating Curve, Vin =5 V (See Note B) 90 PT6461; VOUT =3.3 V Ambient Temperature (C) 80 Airflow 70 200LFM 120LFM 60LFM Nat conv 60 50 40 30 20 0 2 4 6 8 10 12 14 Iout (A) 90 PT6467; VOUT =1 V Ambient Temperature (C) 80 Airflow 70 200LFM 120LFM 60LFM Nat conv 60 50 40 30 20 0 2 4 6 8 10 12 14 Iout (A) Note B: SOA curves represent operating conditions at which internal components are at or below manufacturer's maximum rated operating temperatures. For technical support and more information, see inside back cover or visit www.ti.com Application Notes PT6460 & PT6470 Series Operating Features and System Considerations for the PT6460 & PT6470 Regulator Series The PT6460 (5-V input) and the PT6470 (3.3-V input) series of integrated switching regulators (ISRs) provide step-down voltage conversion for output loads of up to 14 A. Power up & Soft-Start Timing Following either the application of a valid input source voltage, or the removal of a ground signal to the Inhihit* control pin (with input power applied), the regulator will initiate a soft-start power up. A soft start slows the rate at which the output voltage rises and introduces a short time delay, td (approximately 2 ms), into the power-up sequence. Figure 1-1 shows the power-up characteristic of a PT6464 (5-V input, 1.8-V output) with a 8.5-A load. Figure 1-1 Vo (1V/Div) Output Remote Sense The (+)Sense pin allows the regulator to compensate for limited amounts of `IR' voltage drop in the positive output connection resistance. This is the voltage drop incurred in the PCB trace between Vout (pins 9 & 10) of the regulator and the load some distance away. Connecting (+)Sense to the positive load terminal improves the voltage regulation at the load, particularly when the load current fluctuates. Although not recommended, leaving (+)Sense disconnected will not damage the regulator or the load circuitry. An internal 10 resistor, connected between the sense pin and the output, keeps the output voltage in regulation. With the sense pin connected, the difference between the voltage measured between V out and GND at the regulator, and that measured from (+)Sense to GND, is the amount of IR drop being compensated by the regulator. This should be limited to 0.3 V maximum. Note: The remote sense feature is not designed to compensate for the forward drop of non-linear or frequency dependent components that may be placed in series with the converter output. Examples include OR-ing diodes, filter inductors, ferrite beads, and fuses. When these components are enclosed by the remote sense connections they are effectively placed inside the regulation control loop, which can adversely affect the stability of the regulator. Vin (2V/Div) Pre-Bias Startup td Iin (2A/Div) HORIZ SCALE: 5ms/Div Over-Current Protection To protect against load faults, these ISRs incorporate output over-current protection. Applying a load that exceeds the over-current threshold (see data sheet specifications) will cause the regulated output to shut down. Following shutdown the ISR will periodically attempt to recover by initiating a soft-start power-up. This is often described as a "hiccup" mode of operation, whereby the module continues in a cycle of successive shutdown and power up until the load fault is removed. During this period, the average current flowing into the fault is significantly reduced. Once the fault is removed, the converter automatically recovers and returns to normal operation. In complex digital systems an external voltage can sometimes be present at the output of the regulator during power up. For example, this voltage may be backfed through a dual-supply logic component such as an FPGA or ASIC. Another path might be via a clamp diode (to a lower supply voltage) as part of a power-up sequencing implementation. Although the PT6460 (5-V input) and PT6470 (3.3-V input) series of regulators will sink current under steadystate conditions, they will not do so during startup. This feature allows these regulators to start up while an external voltage is simultaneously applied to the output. To facilitate this feature the input voltage must always be greater than or equal to the output voltage throughout the power-up and power-down sequence. Startup includes both the application of a valid input source voltage, or the removal of a ground signal from the Inhibit* control (pin 1) with a valid input source applied. The output of the regulator is also effectively off (tri-state), during the period that the Inhibit* control is held low. Note: If the pre-bias is greater than the nominal regulation voltage, the module will begin sinking current at the end of its soft-start power-up sequence. This could overstress the regulator if the current exceeds its rated output. For technical support and more information, see inside back cover or visit www.ti.com Application Notes PT6460 & PT6470 Series Capacitor Recommendations for the PT6460 & PT6470 Regulator Series Input Capacitor: The recommended input capacitor is determined by a minimum of 470 F capacitance and 700 mA minimum ripple current rating. Ripple current and <100 m equivalent series resistance (ESR) values are the major considerations, along with temperature, when when designing with different types of capacitors. Tantalum capacitors have a recommended minimum voltage rating of 2x (maximum DC voltage + AC ripple). This is necessary to insure reliability for input voltage bus applications. Output Capacitors (Optional): The ESR of the capacitors should be less than 150 m. Electrolytic capacitors have marginal ripple performance at frequencies greater than 400 kHz but excellent low frequency transient response. Above the ripple frequency, ceramic capacitors are necessary to improve the transient response and reduce any high frequency noise components apparent during higher current excursions. Preferred low ESR type capacitor part numbers are identified in Table 2-1. Tantalum Capacitors( Optional Output Capacitors) Tantalum type capacitors can be used for the output but only the AVX TPS, Sprague 593D/594/595, or Kemet T495/T510 series. These capacitors are recommended over many other tantalum types due to their higher rated surge, power dissipation, and ripple current capability. As a caution the TAJ series by AVX is not recommended. This series has considerably higher ESR, reduced power dissipation, and lower ripple current capability. The TAJ series is less reliable than the AVX TPS series when determining power dissipation capability. Tantalum or Oscon(R) types are recommended for applications where ambient temperatures fall below 0 C. Capacitor Table Table 2-1 identifies the characteristics of capacitors from a number of vendors with acceptable ESR and ripple current (rms) ratings. The number of capacitors required at both the input and output buses is identified for each capacitor type. This is not an extensive capacitor list. Capacitors from other vendors are available with comparable specifications. Those listed are for guidance. The RMS ripple current rating and ESR (at 100kHz) are critical parameters necessary to insure both optimum regulator performance and long capacitor life. Table 2-1: Input/Output Capacitors Capacitor Vendor/ Series Capacitor Characteristics Quantity Working Voltage Value(F) (ESR) Equivalent Series Resistance Maximum Ripple Current @105C (Irms) Physical Size (mm) Input Bus Output Bus Panasonic FC (Radial) 16 V 10 V 470 560 0.09 0.09 755 mA 755 mA 10x12.5 10x12.5 1 1 1 1 EEUFC1C471 EEUFC1A561 FK (SMT) 25 V 35 V 470 470 0.08 0.06 850 mA 1100 mA 10x10.2 12.5x13.5 1 1 1 1 EEVFK1E471P EEVFK1V471Q 16 V 10 V 10 V 470 680 680 0.090 0.090 0.015 760 mA 770 mA 4735 mA 10x12.5 10x12.5 10x10.5 1 1 1 1 1 1 LXZ16VB471M10X12LL LXZ10VB681M10X12LL 10FX680M Nichicon PL/PM 16 V 16 V 330 470 0.12/2=0.06 0.09 745 mA 770 mA 10x12.5 10x15 2 1 1 1 UPM1C331MPH6 UPM1C 471MPH6 NX Series (SMT) 10 V 330 0.024 3770 mA 10x8 2 1 PNX1A330MCAR1GS Sanyo-Os-con SP SVP (SMT) 10 V 10 V 470 560 0.015 0.013 >4500 mA >5200 mA 10x10.5 11x12.7 1 1 1 1 10SP470M 10SVP560M AVX Tantalum TPS (SMT) 10 V 10 V 470 470 0.045 0.060 1723 mA 1826 mA 7.3Lx5.7W x4.1H 1 1 1 1 TPSE477M010R0045 TPSV477M010R0060 Kemet Polymer Tantalum T520/T530 (SMT) 10 V 10 V 330 330 0.040 0.015 1800 mA >3800 mA 4.3Wx7.3L x4.0H 2 2 1 1 T520X337M010AS T530X337M010AS Sprague Tantalum 594D (SMT) 10 V 680 0.090 1660 mA 7.2Lx6W x4.1H 1 1 595D687X0010R2T United Chemi-con LXZ/LXV FX Vendor Part Number For technical support and more information, see inside back cover or visit www.ti.com Application Notes PT6460 & PT6470 Series Adjusting the Output Voltage of the PT6460 & PT6470 ISR Series The output voltage of the PT6460 (5-V input) and the PT6470 (3.3-V input) series of power modules may be adjusted higher or lower than the pre-set voltage. The adjustment method requires a single external resistor. The value of the resistor can either be calculated using the formulas given below, or simply selected from the range of values given in Table 3-2. Table 3-1 gives the allowable adjustment range for each model as V a (min) and Va (max). Refer to Figure 3-1 for the placement of the required resistor. Resistor R1 adjusts the output voltage up, and the resistor (R2) adjusts it down. The values of (R1) [adjust down], and R2 [adjust up], can be calculated using the following formulas. Refer to Figure 3-1 for the placement of the required resistor; either (R1) or R2 as appropriate. Ro (Va - 0.8) Vo - Va (R1) = R2 = Where: Vo Va Ro Rs Adjust Up: An increase in the output voltage is obtained by adding a resistor R2, between Vo Adjust (pin 12) and GND (pin 5). 0.8 Ro Va - Vo - Rs k - Rs k = Original output voltage = Adjusted output voltage = The resistance value from Table 3-1 = The series resistance from Table 3-1 Adjust Down: Add a resistor (R1), between Vo Adjust (pin 12) and +Vsense (pin 11). Notes: 1. Use a 1 % (or better) tolerance resistor in either the (R1) or R2 location. Place the resistor as close to the ISR as possible. Figure 3-1 2. Never connect capacitors from Vo adj to either GND or Vout. Any capacitance added to the Vo adjust pin will affect the stability of the ISR. 11 +Vsense +VIN 2-4 PT6460/70 Vin Inhibit* 1 CIN 560 F (Req'd) GND 5-8 Vout +VO 9-10 Vo(adj) 3. If the remote sense feature is not being used, the adjust resistor (R1) can also be connected to Vout, (pins 9-10) instead of +Vsense. 12 (R 1) Adj Down + COUT 330 F (Optional) 4. The PT6472 may not be adjusted higher than the nominal output voltage of 2.5 V. There is insufficient input voltage to allow for any increase in output voltage. + R2 Adjust Up COM COM Table 3-1 ISR OUTPUT VOLTAGE ADJUSTMENT RANGE AND FORMULA PARAMETERS Series Pt. Nos. 5-V Bus: PT6461 PT6462 PT6463 PT6464 3.3-V Bus: N/A PT6472 PT6473 PT6474 PT6465 PT6475 PT6466 PT6476 PT6467 PT6477 Vo (nom) 3.3 V 2.5 V 2.0 V 1.8 V 1.5 V 1.2 V 1V Va (min) 2.6 V 2.0 V 1.66 V 1.52 V 1.31 V 1.1 V 0.95 V Va (max) 3.63 V 2.8 V * 2.32 V 2.1 V 1.82 V 1.52 V ) Ro (k 10.2 10.7 10.0 10.2 ) Rs (k 24.9 24.9 24.9 24.9 9.76 24.9 * The PT6472 may not be adjusted higher than its nominal output voltage of 2.5 V. See note 4 For technical support and more information, see inside back cover or visit www.ti.com 1.32 V 10.0 10.2 24.9 24.9 Application Notes continued PT6460, PT6470 Series Table 3-2 ISR ADJUSTMENT RESISTOR VALUES Series Pt. Nos. 5.0V Bus: PT6461 PT6462 3.3V Bus: N/A PT6472 Vo (nom) 3.3 V 2.5 V Va (req.d) PT6463 PT6473 2.0 V PT6464 PT6474 1.8 V PT6465 PT6475 1.5 V PT6466 PT6476 1.2 V PT6467 PT6477 1.0V Va (req.d) 3.60 2.3 k 2.300 3.55 7.7 k 2.250 7.1 k 3.50 15.9 k 2.200 15.1 k 3.45 29.5 k 2.150 28.4 k 3.40 56.7 k 2.100 55.1 k 3.35 138.0 k 2.050 135.0 k 3.30 1.8 k 2.000 2.3 k 7.7 k 15.9 k 3.25 (475.0) k 1.950 (205.0) k 3.20 (220.0) k 1.900 (85.1) k 56.7 k 3.15 (135.0) k 1.850 (45.1) k 138.0 k 3.10 (92.4) k 1.800 (25.1) k 3.05 (66.9) k 1.750 (13.1) k (169.0) k 6.3 k 3.00 (49.9) k 1.700 (5.1) k (66.9) k 14.1 k 2.95 (37.5) k 1.650 (32.9) k 27.2 k 2.90 (28.6) k 1.600 (15.9) k 53.2 k 2.85 (21.6) k 1.550 (5.7) k 131.0 k 2.80 (15.9) k 3.6 k 1.500 2.75 (11.3) k 9.3 k 1.475 (239.0) k 2.70 (7.4) k 17.9 k 1.450 (102.0) k 7.1 k 2.65 (4.1) k 32.2 k 1.425 (56.4) k 10.7 k 2.60 (1.3) k 60.7 k 1.400 (33.7) k 15.1 k 146.0 k 1.375 (20.0) k 20.8 k 1.350 (10.9) k 28.4 k (4.4) k 39.1 k 2.550 2.500 29.5 k 1.1 k 1.8 k 4.2 k 2.450 See note 4 (328.0) k 1.325 2.400 (146.0) k 1.300 55.1 k 2.3 k 2.350 (85.7) k 1.275 81.8 k 4.8 k 2.300 (55.3) k 1.250 135.0 k 7.7 k 2.250 (37.2) k 1.225 295.0 k 11.4 k 2.200 (25.0) k 1.200 2.150 (16.4) k 1.175 (125.0) k 21.7 k 2.100 (9.9) k 1.150 (45.1) k 29.5 k 2.050 (4.8) k 1.125 (18.4) k 40.4 k 2.000 (0.8) k 1.100 (5.1) k 56.7 k 15.9 k 1.075 83.9 k 1.050 138.0 k 1.025 302.0 k 1.000 R1 = Black 0.975 (46.5) k 0.950 (5.7) k R2 = (Blue) For technical support and more information, see inside back cover or visit www.ti.com Application Notes PT6460 & PT6470 Series Using the Inhibit Control of the PT6460 & PT6470 Series of Step-Down ISRs The PT6460 (5-V input) and the PT6470 (3.3-V input) series of integrated switching regulators (ISRs) provide step-down voltage conversion for output loads of up to 14 A. For applications that require the output voltage to be held off, these ISRs incorporate an Inhibit* control (pin 1). The Inhibit* control input can be used for powerup sequencing or whenever there is a requirement for the output voltage from the ISR to be turned off. The ISR functions normally with pin 1 open circuit, providing a regulated output whenever a valid source voltage is applied between Vin (pins 2-3) and GND (pins 5-8). When a low-level ground signal is applied to pin 1, the regulator output is turned off 2 and the input current is significantly reduced 3. Turn-On Time: In the circuit of Figure 4-1, turning Q1 on applies a low-voltage to the Inhibit* control (pin 1) and disables the output of the regulator 2. If Q1 is then turned off, the ISR executes a soft-start power up. Power up consists of a short delay (approx. 2 msec), followed by a period in which the output voltage rises to the full regulation voltage. The module produces a regulated output voltage within 10 msec. Figure 4-2 shows the typical rise in both the output voltage and input current for a PT6464 (1.8 V), following the turn-off of Q1. The turn off of Q1 corresponds to the rise in the waveform, Q1 Vds. The waveforms were measured with a 5VDC input voltage, and 8.5-A load. Figure 4-2 Figure 4-1 shows the typical application of the Inhibit* function. Note the discrete transistor, Q1. The Inhibit* control has its own internal pull-up to Vin potential. An open-collector or open-drain device is recommended to control this input 1. The voltage thresholds are given in Table 4-1. Vo (1V/Div) Iin (2A/Div) Table 4-1; Inhibit Control Requirements Parameter Enable (VIH) Disable (VIL) Min Typ Max Vin - 0.5 V -0.2 V -- Open -- +0.8 V -- -0.2 mA -- I IL Q1Vds (5V/Div) HORIZ SCALE: 2ms/Div Figure 4-1 +VSENSE 11 +Vsense +VIN 2-4 PT6464 Vin Inhibit* 1 CIN 560 F (Req'd) + Q1 BSS138 GND 5-8 Vout VOUT 9-10 Vo(adj) 12 COUT 330 F (Optional) + L O A D 1 =Inhibit COM Notes: 1. Use an open-collector device with a breakdown voltage of at least 10 V (preferably a discrete transistor) for the Inhibit* control input. A pull-up resistor is not necessary. To disable the output voltage the control pin should be pulled low to less than +0.8 VDC. GND 2. When a ground signal is applied to the Inhibit* control (pin 1) the module output is effectively turned off (tristate). The output voltage decays to zero as the load impedance discharges the output capacitors. 3. When the output is disabled via the Inhibit* pin, the input current is reduced to approximately 5 to 10 mA. For technical support and more information, see inside back cover or visit www.ti.com PACKAGE OPTION ADDENDUM www.ti.com 1-Aug-2011 PACKAGING INFORMATION Orderable Device Status (1) Package Type Package Drawing Pins Package Qty Eco Plan (2) Lead/ Ball Finish MSL Peak Temp (3) (Requires Login) PT6461A NRND SIP MODULE EPJ 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6461C NRND SIP MODULE EPK 12 21 Pb-Free (RoHS) Call TI Level-3-215C-168HRS OBSOLETE SIP MODULE PT6461N EPH 12 TBD Call TI Call TI PT6462A NRND SIP MODULE EPJ 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6462C NRND SIP MODULE EPK 12 21 Pb-Free (RoHS) Call TI Level-3-215C-168HRS NRND SIP MODULE EPH 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type OBSOLETE SIP MODULE EPJ 12 TBD Call TI Call TI PT6462N PT6463A Samples PT6463C NRND SIP MODULE EPK 12 21 Pb-Free (RoHS) Call TI Level-3-215C-168HRS PT6464A NRND SIP MODULE EPJ 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6464C OBSOLETE SIP MODULE EPK 12 TBD Call TI Call TI PT6464N OBSOLETE SIP MODULE EPH 12 TBD Call TI Call TI PT6465A NRND SIP MODULE EPJ 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6465C NRND SIP MODULE EPK 12 21 Pb-Free (RoHS) Call TI Level-3-215C-168HRS PT6465N NRND SIP MODULE EPH 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6466A NRND SIP MODULE EPJ 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6466C NRND SIP MODULE EPK 12 21 Pb-Free (RoHS) Call TI Level-3-215C-168HRS PT6466N NRND SIP MODULE EPH 12 21 Pb-Free (RoHS) Call TI N / A for Pkg Type PT6467C OBSOLETE SIP MODULE EPK 12 TBD Call TI Call TI PT6467N OBSOLETE SIP MODULE EPH 12 TBD Call TI Call TI (1) The marketing status values are defined as follows: ACTIVE: Product device recommended for new designs. LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect. NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design. PREVIEW: Device has been announced but is not in production. Samples may or may not be available. OBSOLETE: TI has discontinued the production of the device. (2) Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check http://www.ti.com/productcontent for the latest availability information and additional product content details. TBD: The Pb-Free/Green conversion plan has not been defined. Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes. Addendum-Page 1 PACKAGE OPTION ADDENDUM www.ti.com 1-Aug-2011 Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above. Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material) (3) MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature. Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. 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