TPS23753PW.A
IEEE 802.3 POE INTERFACE AND ISOLATED CONVERTER CONTROLLER
Manufacturer
Texas Instruments
Overview
Part: TPS23753, Texas Instruments
Type: Power over Ethernet (PoE) powered device (PD) interface and current-mode dc/dc controller
Key Specs:
- PoE Standard: IEEE 802.3at (13 W, type 1 PD)
- Hotswap MOSFET: 100 V, 0.7 Ω
- System Level ESD: 15 kV / 8 kV
- Operating Junction Temperature Range: -40°C to 125°C
- Duty Cycle: 0 – 80%
- PoE UVLO ON / HYST.: 35/4.5 V
- Recommended Input Voltage (VDD, VDD1, RTN): 0 to 57 V
- Recommended Input Voltage (VC to RTN): 0 to 18 V
- RTN current: 350 mA (max)
- VB sourcing current: 5 mA (max)
- VB capacitance: 0.08 to 2.2 μF
- Synchronization pulse width input: 25 to 150 ns
Features:
- Optimized for Isolated Converters
- Complete PoE Interface
- Adapter ORing Support
- 12 V Adapter Support
- Programmable Frequency with Synch.
- Robust 100 V, 0.7 Ω Hotswap MOSFET
- Small TSSOP 14 Package
- 15 kV / 8 kV System Level ESD Capable
- -40°C to 125°C Junction Temperature Range
- External detection signature pin can disable internal hotswap MOSFET
- Classification programmable to any defined types with a single resistor
- Bootstrap startup mechanism with internal, switched current source
- Programmable oscillator may be synchronized to a higher-frequency external timing reference
Applications:
- IEEE 802.3at Compliant Powered Devices
- VoIP Telephones
- Access Points
- Security Cameras
Package:
- PW (TSSOP-14)
Features
- Optimized for Isolated Converters
- Complete PoE Interface
- Adapter ORing Support
- 12 V Adapter Support
- Programmable Frequency with Synch.
- Robust 100 V, 0.7 Ω Hotswap MOSFET
- Small TSSOP 14 Package
- • 15 kV / 8 kV System Level ESD Capable
- -40°C to 125°C Junction Temperature Range
- Design Procedure Application Note SLVA305
- Adapter ORing Application Note SLVA306
Applications
- IEEE 802.3at Compliant Powered Devices
- VolP Telephones
- Access Points
- Security Cameras
Pin Configuration
Refer to Figure 1 for component reference designators @CS for example ), and the Electrical Characteristics table for values denoted by reference ( VCSMAX for example). Electrical Characteristic values take precedence over any numerical values used in the following sections.
Electrical Characteristics
Unless otherwise noted: CS = APD = CTL = RTN, GATE open, RFRS = 60.4 k Ω , RBLNK = 249 k Ω , CVB = CVC = 0.1 μ F, RDEN = 24.9 k Ω , RCLS open, VVDD-VSS = 48 V, VVDD1-RTN = 48 V, 8.5 V ≤ VVC-RTN ≤ 18 V, -40°C ≤ TJ ≤ 125°C Controller Section Only
[VSS = RTN and VDD = VDD1] or [VSS = RTN = VDD] , all voltages referred to RTN. Typical specifications are at 25°C.
| PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
|---|---|---|---|---|---|---|
| V C | 1 | |||||
| UVLO 1 | Undervoltage lockout | V C rising | 8.65 | 9 | 9.3 | V |
| UVLO H | Undervoltage lockout | Hysteresis (1) | 3.3 | 3.5 | 3.7 | V |
| Operating current | VC = 12 V, CTL = VB | 0.40 | 0.58 | 0.85 | mA | |
| Startup time, CVC = 22 μ F | VDD1 = 10.2 V, VC(0) = 0 V | 50 | 85 | 175 | ms | |
| t ST | Startup time, CVC = 22 μ F | VDD1 = 35 V, VC(0) = 0 V | 30 | 48 | 85 | 1115 |
| Startup current source - I VC | VDD1 = 10.2 V, VVC = 8.6 V | 0.44 | 1.06 | 1.80 | mA | |
| Startup current source - I VC | VDD1 = 48 V, VVC = 0 V | 2.5 | 4.3 | 6.0 | IIIA | |
| VB | · | • | ||||
| Voltage | 6.5 V ≤ VC ≤ 18 V, 0 ≤ IVB ≤ 5 mA | 4.75 | 5.10 | 5.25 | V | |
| FRS | ||||||
| Switching frequency | Critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian (critabian ( | 248 | 273 | kHz | ||
| Switching frequency | RFRS = 60.4 kΩ | 223 | 246 | 2/3 | KHZ | |
| D MAX | Duty cycle | CTL= V B , Measure GATE | 76 | 78.5 | 81 | % |
| V SYNC | Synchronization | Input threshold | 2.0 | 2.2 | 2.4 | V |
| CTL | ||||||
| VZDC | 0% duty cycle threshold | V CTL ↓ until GATE stops | 1.3 | 1.5 | 1.7 | V |
| Softstart period | Interval from switching start to V CSMAX | 400 | 800 | μs | ||
| Input resistance | 70 | 100 | 145 | kΩ | ||
| BLNK | · | , | ||||
| In addition to t 1 | ||||||
| Blanking delay | BLNK = RTN | 35 | 52 | 75 | ns | |
| RBLNK = 49.9 kΩ | 41 | 52 | 63 |
Copyright © 2008–2010, Texas Instruments Incorporated
Absolute Maximum Ratings
Voltages are with respect to VSS (unless otherwise noted)
| VALUE | UNIT | |||
|---|---|---|---|---|
| VDD, VDD1, DEN, RTN(2) | –0.3 to 100 | V | ||
| VDD1 to RTN | –0.3 to 100 | V | ||
| CLS(3) | –0.3 to 6.5 | V | ||
| VI | Input voltage range | [APD, BLNK(3) , CTL, FRS(3) (3)] , VB to RTN | –0.3 to 6.5 | V |
| CS to RTN | –0.3 to VB | V | ||
| VC to RTN | –0.3 to 19 | V | ||
| GATE to RTN | –0.3 to VC + 0.3 | V | ||
| Sourcing current | VB | Internally limited | mA | |
| Average sourcing or sinking current | GATE | 25 | mARMS | |
| HBM | 2 | kV | ||
| ESD rating | CDM | 500 | V | |
| ESD – system level (contact/air)(4) | 8/15 | kV | ||
| TJ | Operating junction temperature range | –40 to Internally Limited | °C |
(1) Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
Recommended Operating Conditions
Voltage with respect to VSS (unless otherwise noted)
| MIN | NOM | MAX | UNIT | ||
|---|---|---|---|---|---|
| Input voltage range, V DD , V DD1 , RTN | 0 | 57 | V | ||
| Input voltage range, V DD , V DD1 to RTN | 0 | 57 | V | ||
| VI | Input voltage range, V C to RTN | 0 | 18 | V | |
| • | Input voltage range, APD, CTL to RTN | 0 | V B | V | |
| Input voltage range, CS to RTN | 0 | 2 | V | ||
| RTN current (T J ≤ 125°C) | 350 | mA | |||
| V B sourcing current | 0 | 2.5 | 5 | mA | |
| V B capacitance | 0.08 | 0.1 | 2.2 | μF | |
| R BLNK | 0 | 350 | kΩ | ||
| Synchronization pulse width input (when used) | 25 | 150 | ns | ||
| TJ | Operating junction temperature range | -40 | 125 | °C |
Thermal Information
Sources of nearby local PCB heating should be considered during the thermal design. Typical calculations assume that the TPS23753 is the only heat source contributing to the PCB temperature rise. It is possible for a normally operating TPS23753 device to experience an OTSD event if it is excessively heated by a nearby device.
Related Variants
The following components are covered by the same datasheet.
| Part Number | Manufacturer | Package |
|---|---|---|
| TPS23753 | Texas Instruments | — |
| TPS23753APWR | Texas Instruments | TSSOP-14 |
| TPS23753EVM-001 | Texas Instruments | — |
| TPS23753PW | Texas Instruments | — |
| TPS23753PWG4 | Texas Instruments | — |
| TPS23753PWR | Texas Instruments | — |
| TPS23753PWR.A | Texas Instruments | — |
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