W83L351G

Winbond ExpressCard™ Power Interface Switch W83L351 Series W83L351 Series W83L351 Series Data Sheet Revision History NO PAGES DATES VERSION 1. All Apr. /07 1.0 2 28 July 5, 2007 1.1 VERSION ON WEB N.A MAIN CONTENTS All versions before 1.0 are preliminary versions. Update the ordering information and add the taping spec. 3 4 5 6 7 -I- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series Table of Contents1. FEATURES ................................................................................................................................. 1 2. PIN CONFIGURATION AND DESCRIPTION ............................................................................ 2 3. APPLICATION CIRCUIT............................................................................................................. 5 4. INTERNAL BLOCK DIAGRAM ................................................................................................... 6 5. ABSOLUTE MAXIMUM RATINGS ............................................................................................. 7 6. RECOMMENDED OPERATING CONDITIONS ......................................................................... 8 7. ELECTRICAL CHARACTERISTICS........................................................................................... 9 8. SWITCHING CHARACTERISTICS .......................................................................................... 12 9. FUNCTIONAL TRUTH TABLES ............................................................................................... 13 10. TYPICAL OPERATING WAVEFORMS .................................................................................... 15 11. EXPRESSCARD TIMING DIAGRAMS ..................................................................................... 20 12. PACKAGE DIMENSION ........................................................................................................... 24 13. ORDERING INFORMATION .................................................................................................... 28 14. TOP MARKING SPECIFICATION ............................................................................................ 29 -II- W83L351 Series 1. FEATURES • Meets the ExpressCard™ Standard (ExpressCard|34 or ExpressCard|54) • Compliant with the ExpressCard™ Compliance Checklists • ExpressCard Compliance ID: EC100098 (W83L351G), EC100115 (W83L351YG/YCG) • Fully Satisfies the ExpressCard™ Implementation Guidelines • Supports System with WAKE Function • TTL-Logic Compatible Inputs • Short Circuit and Thermal Protection • 0℃ to 70℃ Ambient Operating Temperature Range • Available in a 20-pin TSSOP or a 20-pin QFN -1- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series 2. PIN CONFIGURATION AND DESCRIPTION AUXIN 17 RCLKEN 18 SHDN# 20 20 OC# SHDN# 2 19 RCLKEN STBY# 3 18 AUXIN 3.3VIN 4 17 AUXOUT STBY# 1 15 AUXOUT 3.3VIN 5 16 1.5VIN 3.3VIN 2 14 NC 3.3VOUT 6 15 1.5VIN 3.3VOUT 3 13 NC 3.3VOUT 7 14 1.5VOUT PERST# 8 13 1.5VOUT NC 4 12 1.5VIN NC 9 12 CPPE# NC 5 11 1.5VOUT CPUSB# 10 CPPE# 9 PERST# (Top View) 8 SYSRST# W83L351G GND 6 11 CPUSB# 7 GND 10 NC 16 1 OC# 19 SYSRST# W83L351YG W83L351YCG (Top View) PIN SYMBOL SYSRST# SHDN# G 1 2 YG I/O FUNCTION I(*) System Reset input – active low, logic level signal. Internally pulled up to AUXIN. This input is driven by the host system and directly affects PERST#. Asserting SYSRST# (logic low) forces PERST# to assert. RCLKEN is not affected by the assertion of SYSRST#. I(*) Shutdown input – active low, logic level signal. Internally pulled up to AUXIN. When asserted (logic low), this input instructs the power switch to turn off all voltage outputs and the discharge FETs are activated. YCG 6 20 -2- W83L351 Series Continued PIN SYMBOL STBY# G 3 YG I/O FUNCTION I(*) Standby input – active low, logic level signal. Internally pulled up to AUXIN. When asserted (logic low) after the card is inserted, this input places the power switch in standby mode by turning off the 3.3V and 1.5V power switches and keeping the AUX switch on. If the signal is asserted prior to the card being present, STBY# places the power switch in OFF Mode by turning off the AUX, 3.3V, and 1.5V power switches. YCG 1 A logic level power good (with delay). When powered up, this output remains asserted (logic level low) until all power rails are within the tolerance. Once all power rails are within the tolerance and RCLKEN has been released (logic high), PERST# is deasserted (logic high) after a time delay, as shown in the parametric table. When powered down, this output is asserted whenever any of the power rails drops below their voltage tolerance. The PERST# signal is an output from the host system and an input to the ExpressCard module. This signal is only used by PCI Express-based modules and its function is to place the ExpressCard module in a reset state. PERST# 8 8 O During power up, power down, or whenever power to the ExpressCard module is not stable or not within voltage tolerance limits, the ExpressCard standard requires that PERST# be asserted. As a result, this signal also serves as a power-good indicator to the ExpressCard module, and the relationship between the power rails and PERST# are explicitly defined in the ExpressCard standard. The host can also place the ExpressCard module in a reset state by asserting a system reset SYSRST#. This system reset generates a PERST# signal to the ExpressCard module without disrupting the voltage rails. This is normally called a warm reset. However, in a cold start situation, the system reset can also be used to prolong the assertion time of PERST#. CPUSB# CPPE# 11 12 9 10 (*) I Card Present input for USB cards. Internally pulled up to AUXIN. A logic low level on this input indicates that the card present supports the USB functions. When a card is inserted, CPUSB# is physically connected to ground if the card supports USB functions. I(*) Card Present input for PCI Express cards. Internally pulled up to AUXIN. A logic low level on this input indicates that the card present supports the PCI Express functions. When a card is inserted, CPPE# is physically connected to ground if the card supports PCI Express functions. -3- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series Continued PIN SYMBOL RCLKEN G 19 YG I/O FUNCTION YCG 18 Reference Clock Enable signal. As an output, it is a logic level power good to the host (no delay – open drain). As an input, if the signal is kept inactive (low) by the host, PERST# will be prevented from being de-asserted. Internally pulled up to AUXIN. This pin serves both as an input and an output. When powered up, a discharge FET keeps this signal at a low state as long as any of the output power rails is out of their tolerance range. Once all output power rails are within the tolerance, the switch releases RCLKEN, (*) I /O allowing it to transit to a high state (internally pulled up to AUXIN). The transition of RCLKEN from a low to a high state starts an internal timer for the purpose of de-asserting PERST#. As an input, RCLKEN can be kept low to delay the start of the PERST# internal timer. Because RCLKEN is internally connected to a discharge FET, this pin can only be driven low and should never be driven high as a logic input. When an external circuit drives this pin low, RCLKEN becomes an input; otherwise, this pin is an output. Over current status output (open drain). This pin is an open-drain output. When any of the three power switches (AUX, 3.3V, and 1.5V) is in an over current condition, OC# is asserted (logic low) by an internal discharge FET with a deglitch delay. Otherwise, the discharge FET is open, and the pin can be pulled up to a power supply through an external resistor. OC# 20 19 OD 3.3VIN 4, 5 2 I Primary voltage source, 3.3V input for 3.3VOUT 1.5VIN 15,16 12 I Secondary voltage source, 1.5V input for 1.5VOUT AUXIN 18 17 I Auxiliary voltage source, AUX input for AUXOUT and chip power. 3.3VOUT 6, 7 3 O Switched output that delivers 0V, 3.3V or high impedance to the card. 1.5VOUT 13, 14 11 O Switched output that delivers 0V, 1.5V or high impedance to the card. AUXOUT 17 15 O Switched output that delivers 0V, AUX or high impedance to the card. GND 10 7 9 4, 5, 13, 14, 16 NC Ground No connection Notice: (*) Be aware that no input pins can be driven HIGH before the Auxiliary voltage is VALID. -4- W83L351 Series 3. APPLICATION CIRCUIT AUXIN AUXOUT C1 0.1U C2 4.7U C3 0.1U C4 22U U1 3.3VIN 3.3VOUT C5 0.1U C6 4.7U C7 0.1U C8 22U 1 2 3 4 5 6 7 8 9 10 SY SRST# SHDN# STBY # 3.3VIN 3.3VOUT PERST# 1.5VIN 1.5VOUT C9 0.1U C10 4.7U C11 0.1U R1 20 19 18 17 16 15 14 13 12 11 OC# RCLKEN AUXIN AUXOUT 1.5VIN 1.5VIN 1.5VOUT 1.5VOUT CPPE# CPUSB# SY SRST# SHDN# STBY # 3.3VIN 3.3VIN 3.3VOUT 3.3VOUT PERST# NC GND 2K AUXIN AUXOUT 1.5VIN AUXIN RCLKEN 1.5VOUT CPPE# CPUSB# W83L351G C12 22U AUXIN R1 2K AUXOUT 4 1.5VOUT C9 0.1U C10 4.7U C11 0.1U 5 C12 22U SY SRST# -5- 16 NC 17 AUXIN 18 NC 3.3VOUT W83L351YG/YCG NC NC NC 1.5VIN 6 1.5VIN 3.3VIN 1.5VOUT 15 AUXOUT 14 13 12 11 1.5VIN 1.5VOUT CPPE# 3 AUXOUT CPUSB# 3.3VOUT STBY# 10 3.3VIN 2 PERST# C8 22U 9 C7 0.1U GND C6 4.7U 8 1 STBY # C5 0.1U RCLKEN 3.3VOUT OC# U1 19 RCLKEN SHDN# C4 22U SYSRST# 3.3VIN C3 0.1U 20 C2 4.7U SHDN# C1 0.1U 7 AUXIN CPPE# CPUSB# PERST# Publication Date: July 5, 2007 Revision 1.10 W83L351 Series 4. INTERNAL BLOCK DIAGRAM 1.5VI N 1.5VOUT SW1 SW4 3.3VIN 3.3VOUT SW2 SW5 AUXIN AUXOUT SW3 SW6 Detctor CPUSB # Current Limit CPPE # Thermal protection Control Logic OC # STBY # SHDN # GND POWER_GOOD_ALL AUXIN RCLKEN AUXIN PERST # SYSRST # -6- W83L351 Series 5. ABSOLUTE MAXIMUM RATINGS ITEM Input Voltage SYMBOL RATING UNIT VI(3.3VIN) -0.3 to 6 V VI(1.5VIN) -0.3 to 6 V VI(AUXIN) -0.3 to 6 V -0.3 to 6 V VO(3.3VOUT) -0.3 to 6 V VO(1.5VOUT) -0.3 to 6 V VO(AUXOUT) -0.3 to 6 V Logic Input/Output Voltage Output Voltage Output Current IO(3.3OUT) Internally limited IO(1.5OUT) Internally limited IO(AUXOUT) Internally limited Topt 0 to 70 ℃ Human Body Mode ±2 kV Machine Mode ±200 V Latch-Up ±100 mA -7- Publication Date: July 5, 2007 Revision 1.10 Operating Temperature Range Electrostatic discharge protection W83L351 Series 6. RECOMMENDED OPERATING CONDITIONS ITEM Input Voltage MAX UNIT VI(3.3VIN) 3.3VIN is only required for its respective functions 3 3.6 VI(1.5VIN) 1.5VIN is only required for its respective functions 1.35 1.65 3 3.6 0 1.3 A 0 650 mA 0 275 mA VI(AUXIN) AUXIN is required for all circuit operations Continuous output current MIN IO(3.3VOUT) IO(1.5VOUT) TJ=120℃ IO(AUXOUT) -8- V W83L351 Series 7. ELECTRICAL CHARACTERISTICS TA = 25℃, VI (3.3VIN) = VI (AUXIN) = 3.3 V, VI (1.5VIN) = 1.5 V, VI (SHDN#), VI (STBY#) = 3.3 V, VI (CPPE#) = VI (CPUSB#) = 0 V, VI (SYSRST) = 3.3 V, OC# and RCLKEN and PERST# are open, all voltage outputs unloaded (unless otherwise noted) PARAMETER TEST CONDITIONS 3.3VIN to 3.3VOUT with two switches on for dual Power switch resistance 1.5VIN to 1.5VOUT with two switches on for dual AUXIN to AUXOUT with two switches on for dual IOS Short – circuit output current Thermal Shutdown IOS(3.3VOUT) (steady-state value) IOS(1.5VOUT) (steady-state value) IOS(AUXOUT) (steady-state value) Output powered into a short Trip point, TJ Rising temperature, not in over current condition Over current condition Normal operation II(3.3VIN) II(1.5VIN) II(AUXIN) II Total input quiescent current (Note: 1) Shutdown mode II(3.3VIN) II(1.5VIN) II(AUXIN) Standby mode (1) II(3.3VIN) II(1.5VIN) Standby mode (2) II(AUXIN) II(3.3VIN) II(1.5VIN) TYP MAX 105 mΩ 90 110 110 126 1.3 5 0.6 7 1.7 2.5 A 1.1 1.3 A 400 600 mA 155 ℃ 130 10 Outputs are unloaded (include CPPE# and CPUSB# logic pull-up currents) 140 210 10. 5 15 2.2 10 CPUSB# = CPPE# = 0 V SHDN# = 0 V (discharge FETs are on) (include CPPE# and CPUSB# logic pull-up currents and SHDN# pull-up current) CPUSB# = CPPE# = 0 V STBY# = 0 V (include CPPE# and CPUSB# logic pull-up currents and STBY# pull-up current) 170 270 6 10 2.2 10 170 270 6 10 2.2 10 CPUSB# = CPPE# = 0 V 3.3VIN = 0 V (include CPPE# and CPUSB# logic pull-up currents) 160 210 0 0.1 2.2 10 -9- UNIT 90 275 Hysteresis II(AUXIN) MIN TA = 25°C, I = 1305 mA each TA = 70°C, I = 1305 mA each TA = 25°C, I = 660 mA each TA = 70°C, I = 660 mA each TA = 25°C, I = 285 mA each TA = 70°C, I = 285 mA each uA uA uA uA Publication Date: July 5, 2007 Revision 1.10 W83L351 Series Continued PARAMETER TEST CONDITIONS II(AUXIN) Standby mode (3) II(3.3VIN) II(1.5VIN) II(AUXIN) Ilkg(FWD) II(3.3VIN) Forward leakage current II(1.5VIN) MIN TYP MAX CPUSB# = CPPE# = 0 V 1.5VIN = 0 V (include CPPE# and CPUSB# logic pull-up currents) 160 210 6 10 0 0.1 SHDN# = 3.3 V, CPUSB# = CPPE# = 3.3 V (no card present, discharge FETs are on);current measured at input pins, includes RCLKEN pull- up current 22 50 0 50 0 50 UNIT uA uA LOGIC SECTION (SYSRST, SHDN#, STBY#, PERST#, RCLKEN , OC#, CPUSB#, CPPE#) SYSRST# = 3.6 V, sinking I(SYSRS#) Input I(SHDN#) Input SYSRST# = 0 V, sourcing 0 10 SHDN# = 3.6 V, sinking Logic input supply current SHDN# = 0 V, sourcing Input I(RCLKEN ) Input I(CPUSB#) or I(CPPE#) Logic input voltage inputs 10 17. 5 10 17. 5 30 RCLKEN = 0 V, sourcing 10 18 30 CPUSB# or CPPE# = 0 V, sinking CPUSB# or CPPE# = 3.6 V, sourcing 10 17. 5 IO(RCLKEN) = 60 µA PERST# assertion delay from output voltage 3.3VOUT, AUXOUT, 1.5VOUT falling PERST# de-assertion output voltage 3.3VOUT, AUXOUT, or 1.5VOUT rising within tolerance from uA uA 0.4 3.3VOUT falling 2.7 3 AUXOUT falling 2.7 3 1.5VOUT falling 1.2 1.5 -10- uA 30 0.8 PERST# assertion threshold of output voltage (PERST# asserted when any output voltage falls below the threshold) uA 0 2 Output uA 0 Low level delay 30 STBY# = 0 V, sourcing High level RCLKEN output low voltage 30 0 STBY# = 3.6 V, sinking I(STBY#) 17. 5 500 1 20 V V V ns ms W83L351 Series Continued PARAMETER PERST# assertion SYSRST# delay TEST CONDITIONS from tW(PERST#) PERST# minimum pulse width PERST# output low voltage PERST# output high voltage MIN Max time from SYSRST asserted 3.3VOUT, AUXOUT, or 1.5VOUT falling out of tolerance or triggered by SYSRST# IO(PERST#) = 500 µA OC# output low voltage IO(OC#) = 2 mA OC# deglitch Falling into or out of an over current condition 100 TYP MAX UNIT 25 500 ns 340 us 0.4 2.4 V V 0.4 20 V ms UNDERVOLTAGE LOCKOUT (UVLO) 3.3VIN UVLO 3.3VIN level, below which 3.3VIN and 1.5VIN switches are off 2.6 2.9 1.5VIN UVLO 1.5VIN level, below which 3.3VIN and 1.5VIN switches are off 1.0 1.25 2.6 2.9 AUXIN UVLO AUXIN level, below which all switches are off UVLO hysteresis 100 V mV Note 1: In the Shutdown mode or the Standby mode (1), the AUXIN quiescent current includes a normal operation current, SHDN# or STBY# internal pull-up current and RCLKEN internal pull-up current. In the Standby modes (2) & (3), the AUXIN quiescent current includes a normal operation current and a RCLKEN internal-up current. -11- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series 8. SWITCHING CHARACTERISTICS TA = 25℃, VI (3.3VIN) = VI (AUXIN) = 3.3 V, VI (1.5VIN) = 1.5 V, VI (SHDN#), VI (STBY#) = 3.3 V, VI (CPPE#) = VI (CPUSB#) = 0 V, VI (SYSRST) = 3.3 V, OC# and RCLKEN and PERST# are open, all voltage outputs unloaded (unless otherwise noted) PARAMETER tr Output rise times MAX CL(3.3VOUT)=0.1uF, IO(3.3VOUT)=0A 0.1 6 CL(AUXVOUT)=0.1uF, IO(AUXOUT)=0A 0.1 6 1.5VIN to 1.5VOUT CL(1.5VOUT)=0.1uF, IO(1.5VOUT)=0A 0.1 6 3.3VIN to 3.3VOUT CL(3.3VOUT)=100uF, RL=VI(3.3VIN)/1A 0.1 6 0.1 6 0.1 6 10 10 10 5 5 5 10 150 150 150 30 30 30 150 3.3VIN to 3.3VOUT CL(AUXVOUT)=100uF, RL=VI(AUXININ)/0.250A CL(1.5VOUT)=100uF, RL=VI(1.5VIN)/0.500A CL(3.3VOUT)=0.1uF, IO(3.3VOUT)=0A CL(AUXVOUT)=0.1uF, IO(AUXOUT)=0A CL(1.5VOUT)=0.1uF, IO(1.5VOUT)=0A CL(3.3VOUT)=20uF, IO(3.3VOUT)=0A CL(AUXVOUT)=20uF, IO(AUXOUT)=0A CL(1.5VOUT)=20uF, IO(1.5VOUT)=0A CL(3.3VOUT)=0.1uF, IO(3.3VOUT)=0A AUXIN to AUXOUT CL(AUXVOUT)=0.1uF, IO(AUXOUT)=0A 10 150 1.5VIN to 1.5VOUT CL(1.5VOUT)=0.1uF, IO(1.5VOUT)=0A CL(3.3VOUT)=100uF, RL=VI(3.3VIN)/1A CL(AUXVOUT)=100uF, RL=VI(AUXININ)/0.250A CL(1.5VOUT)=100uF, RL=VI(1.5VIN)/0.500A CL(3.3VOUT)=0.1uF, IO(3.3VOUT)=0A CL(AUXVOUT)=0.1uF, IO(AUXOUT)=0A CL(1.5VOUT)=0.1uF, IO(1.5VOUT)=0A CL(3.3VOUT)=100uF, RL=VI(3.3VIN)/1A CL(AUXVOUT)=100uF, RL=VI(AUXININ)/0.250A CL(1.5VOUT)=100uF, RL=VI(1.5VIN)/0.500A 10 0.1 150 3 0.1 3 0.1 3 0.1 6 0.1 6 0.1 6 0.1 6 0.1 6 0.1 6 3.3VIN to 3.3VOUT AUXIN to AUXOUT 1.5VIN to 1.5VOUT 3.3VIN to 3.3VOUT AUXIN to AUXOUT 1.5VIN to 1.5VOUT 3.3VIN to 3.3VOUT AUXIN to AUXOUT 1.5VIN to 1.5VOUT 3.3VIN to 3.3VOUT AUXIN to AUXOUT Tpd(on) Turn on propagation delay TYP AUXIN to AUXOUT 1.5VIN to 1.5VOUT tf Output fall times when SHDN# asserted (card is present) MIN 3.3VIN to 3.3VOUT AUXIN to AUXOUT tf Output fall times when card removed (both CPUSB# and CPPE# deasserted) TEST CONDITIONS 1.5VIN to 1.5VOUT 3.3VIN to 3.3VOUT AUXIN to AUXOUT 1.5VIN to 1.5VOUT -12- UNIT ms us ms us ms ms W83L351 Series 9. FUNCTIONAL TRUTH TABLES Truth Table for Voltage Outputs VOLTAGES INPUTS (1) VOLTAGE OUTPUTS(2) LOGIC INPUTS SHDN# STBY# CP# (4) AUXOUT 3.3VOUT 1.5VOUT MODE(3) AUXIN 3.3VIN 1.5VIN Off X X X X X Off Off Off Off On Off Off 1 1 X Off Off Off Off On On On 1 0 0 Off Off Off Off(5) On On On 1 0 X Off Off Off Off(6) On X X 0 X X GND GND GND Shutdown On X X 1 X 1 GND GND GND No Card On On On 1 0 0 On Off Off Standby On On → Off On → Off 1 1 0 On Off Off Standby(7) On On On 1 1 0 On On On Card Inserted (1) For input voltages, On means the respective input voltage is higher than its turn on threshold voltage; otherwise, the voltage is Off (for AUX input, Off means the voltage is close to zero volt). (2) For output voltages, On means the respective power switch is turned on so the input voltage is connected to the output; Off means the power switch and its output discharge FET are both off; Gnd means the power switch is off but the output discharge FET is on so the voltage on the output is pulled down to 0 V. (3) Mode assigns each set of input conditions and respective output voltage results to a different name. These modes are referred to as input conditions in the following Truth Table for Logic Outputs. (4) CP# = CPUSB# and CPPE# equal to 1 when both CPUSB# and CPPE# signals are logic high, or equal to 0 when either CPUSB# or CPPE# is low. (5) STBY# is asserted (logic low) prior to the card being present. (6) STBY# is asserted (logic low) prior to the voltage inputs being present. (7) The card is inserted prior to the removal of the Primary or Secondary power (either 3.3VIN or 1.5VIN or both) at the input of the ExpressCard power switch, then only the primary and secondary power (both 3.3VOUT and 1.5VOUT) are removed and the auxiliary power is sent to the ExpressCard slot. -13- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series Truth Table for Logic Outputs INPUT CONDITIONS MODE SYSRST# LOGIC OUTPUTS RCLKEN (1) PERST# RCLKEN (2) Off Shutdown No Card X X 0 0 0 Hi - Z 0 1 0 0 0 0 1 Hi - Z 1 1 1 0 0 0 Standby Card Inserted (1) RCLKEN as a logic input in this column. RCLKEN is an I/O pin and it can be driven low externally, left open, or connected to high-impedance terminals, such as the gate of a MOSFET. It must not be driven high externally. (2) RCLKEN as a logic output in this column. -14- W83L351 Series 10. TYPICAL OPERATING WAVEFORMS CH1 CPPE# CH2 3.3VOUT CH3 1.5VOUT CH4 AUXOUT Fig.1 Output Voltage When Card Is Inserted CH1 3.3VOUT CH2 RCLKEN CH3 PERST# Fig.2 RCLKEN and PERST# Voltage During Power Up -15- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series CH1 AUXOUT CH2 RCLKEN CH3 PERST# Fig.3 RCLKEN and PERST# Voltage During Power Down CH1 SYSRST# CH2 PERST# Fig.4 PERST# Asserted by SYSRST# When Power Is On -16- W83L351 Series CH1 SYSRST# CH2 PERST# Fig.5 PERST# De-Asserted by SYSRST# When Power Is On CH1 3.3VIN CH2 3.3VOUT CH3 1.5VOUT CH4 AUXOUT Fig.6 Output Voltage When 3.3VIN Is Removed -17- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series CH1 1.5VIN CH2 3.3VOUT CH3 1.5VOUT CH4 AUXOUT Fig.7 Output Voltage When 1.5VIN Is Removed CH1 OC# CH2 AUXOUT Fig.8 OC# Response When AUXOUT Power Into A Short -18- W83L351 Series CH1 OC# CH2 3.3VOUT Fig.9 OC# Response When 3.3VOUT Power Into A Short CH1 OC# CH2 1.5VOUT Fig.10 OC# Response When 1.5VOUT Power Into A Short -19- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series 11. EXPRESSCARD TIMING DIAGRAMS Tpd Min Max Units a System dependent b 100 us 10 ms c d 100 e 1 us 20 ms Fig.11 Card Present Before Host Power (Note.1) Tpd Min Max Units a 100 b c Fig.12 Host Power Is On Prior To Card Insertion (Note.2) -20- 1 us 10 ms 20 ms W83L351 Series Fig.13 Host System In Standby Prior to Card Insertion Tpd Min Max Units a System dependent b Load dependent c 500 ns d 500 ns Fig.14 Host Controlled Power Down (Note.3) -21- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series Tpd Min Max Units a System dependent b System dependent c Load dependent d 500 ns e 500 ns Fig.15 Controlled Power Down When SHDN# Asserted (Note.4) Tpd Min Max Units Fig.16 Surprise Card Removal -22- a Load dependent b 500 ns c 500 ns W83L351 Series Note.1: According to the electrical specifications of ExpressCard Standard, the minimum propagation delay time of e (Power stable to PERST# inactive) is 1ms. Note.2: RCLKEN could be treated as a power good signal when card power is over 86% of nominal voltage. Note.3: The propagation delay time of c is SYSRST# assertion to PERST# assertion. The propagation delay time of d is card power is under 86% of nominal voltage to RCLKEN de-assertion. Note 4: RCLEKN de-assertion is prior to PERST# assertion when card power lost in any situation. -23- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series 12. PACKAGE DIMENSION W83L351G - TSSOP20 -24- W83L351 Series W83L351YG - QFN20, Thermal Pad Dimension: 2.0mm X 2.0mm -25- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series W83L351YCG - QFN20, Thermal Pad Dimension: 2.7mm X 2.7mm -26- W83L351 Series ¾ Taping Specification 20 Pin TSSOP Package 20 Pin QFN Package -27- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series 13. ORDERING INFORMATION PART NUMBER PACKAGE TYPE W83L351G 20PIN TSSOP (Pb-free package) W83L351YG W83L351YCG 20PIN QFN (Pb-free package) SUPPLIED AS E Shape: 74 units/Tube T Shape: 2,500 units/T&R E Shape: 490 units/Tray Thermal Pad Size: 2.0X2.0 ㎜² T Shape: 4,000 units/T&R 20PIN QFN (Pb-free package) E Shape: 490 units/Tray Thermal Pad Size: 2.7X2.7 ㎜² T Shape: 4,000 units/T&R -28- PRODUCTION FLOW Commercial, 0℃ to +70 ℃ Commercial, 0℃ to +70 ℃ Commercial, 0℃ to +70 ℃ W83L351 Series 14. TOP MARKING SPECIFICATION W83L351G 212345678 606XARA Winbond 351YG 636XARB Winbond 351YCG 636XARB Left line: Winbond logo 1st line: Winbond – company name 1st line: W83L351G – the part number 2nd line: 351YG/351YCG – the part number 2nd line: Chip lot no 3rd line: Tracking code 636 X ARB 3rd line: Tracking code 606 X ARA 636: Packages assembled in Year 06’, week 36 606: Packages assembled in Year 06’, week 06 X: Assembly house ID X: Assembly house ID ARB: The IC version ARA: The IC version -29- Publication Date: July 5, 2007 Revision 1.10 W83L351 Series Important Notice Winbond products are not designed, intended, authorized or warranted for use as components in systems or equipment intended for surgical implantation, atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, or for other applications intended to support or sustain life. Further more, Winbond products are not intended for applications wherein failure of Winbond products could result or lead to a situation wherein personal injury, death or severe property or environmental damage could occur. Winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Winbond for any damages resulting from such improper use or sales. Headquarters Winbond Electronics Corporation America Winbond Electronics (Shanghai) Ltd. No. 4, Creation Rd. III, Science-Based Industrial Park, Hsinchu, Taiwan TEL: 886-3-5770066 FAX: 886-3-5665577 http://www.winbond.com.tw/ 2727 North First Street, San Jose, CA 95134, U.S.A. TEL: 1-408-9436666 FAX: 1-408-5441798 27F, 2299 Yan An W. Rd. Shanghai, 200336 China TEL: 86-21-62365999 FAX: 86-21-62365998 Taipei Office Winbond Electronics Corporation Japan Winbond Electronics (H.K.) Ltd. 9F, No.480, Rueiguang Rd., Neihu District, Taipei, 114, Taiwan, R.O.C. TEL: 886-2-8177-7168 FAX: 886-2-8751-3579 7F Daini-ueno BLDG, 3-7-18 Shinyokohama Kohoku-ku, Yokohama, 222-0033 TEL: 81-45-4781881 FAX: 81-45-4781800 Unit 9-15, 22F, Millennium City, No. 378 Kwun Tong Rd., Kowloon, Hong Kong TEL: 852-27513100 FAX: 852-27552064 Please note that all data and specifications are subject to change without notice. All the trademarks of products and companies mentioned in this datasheet belong to their respective owners. -30-