FAIRCHILD FUSB1500

FUSB1500 / FUSB1501 — USB2.0 Full-Speed /
Low-Speed Transceiver with Charger Detection
Features
Description
ƒ
ƒ
The FUSB1500/1501 is a USB2.0 FS/LS transceiver
with resistive charger detection. It is compliant with the
Universal Serial Bus Specification, Rev. 2.0 (USB2.0).
ƒ
Complies with USB2.0 Specification
Supports 12Mbps and 1.5Mbps USB2.0 Speeds
FUSB1501: Differential Mode Signaling
FUSB1500: Single Ended (SE) Mode Signaling
Slew-Rate Controlled Differential Data Driver
Differential Input Receiver with Wide CommonMode Range and High Input Sensitivity
Stable RCV Output during SE0 Condition
Two Single-Ended Receivers with Hysteresis
Supports I/O Voltage: 1.65V to 3.6V
Applications
ƒ
ƒ
Ideal for portable electronic devices; such as mobile
phones, digital still cameras, and personal digital
assistants; it allows USB Application Specific ICs
(ASICs) and Programmable Logic Devices (PLDs) with
power supply voltages from 1.65V to 3.6V to interface
with the physical layer of the Universal Serial Bus.
The FUSB1500/1501 can be used as a USB device
transceiver or a USB host transceiver. It can transmit
and receive serial data at both full-speed (12Mbps) and
low-speed (1.5Mbps) data rates.
The FUSB1500 supports the SE Mode controller
interface and the FUSB1501 supports the differential
mode controller interface.
Dual-Camera Applications for Cell Phones
Dual-LCD Applications for Cell Phones, Digital
Camera Displays, and Viewfinders
IMPORTANT NOTE:
For additional performance information, please contact
[email protected].
Ordering Information
Part Number
Operating
Temperature
Range
Top
Mark
Eco
Status
Package
Packing
Method
FUSB1500MHX
-40 to +85°C
FUSB
1500
Green
16-Pin, Molded Leadless Package (MLP),
JEDEC MO217 Equivalent, 3mm Square
Tape and Reel
FUSB1501MHX
(Preliminary)
-40 to +85°C
FUSB
1501
Green
16-Pin, Molded Leadless Package (MLP),
JEDEC MO217 Equivalent, 3mm Square
Tape and Reel
For Fairchild’s definition of Eco Status, please visit: http://www.fairchildsemi.com/company/green/rohs_green.html.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
October 2009
VIO
+
+
VREF
+
INT_N
Level Translators
& Control Logic
+
SUSPEND
SPEED_N
CONFIG
VREG3V3
Auto Connect &
Charger
Detection Control
CONFIG_INT
Vpu3V3
150k
1.5k
OE_N
(FS connection)
33
VO/VPO
D-
FSE0/VMO
33
+
HiZ &
Pull
Downs
+
RCV
D+
-
VP
VM
HIZ
RHIZ
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Block Diagram
GND
Figure 1. Functional Block Diagram
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
2
Figure 2. Pin Configuration (Top-Through View)
Pin Definitions
Pin #
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Exposed
Die Pad
Name
I/O
Description
Output enable. Active LOW enables the transceiver to transmit data on the bus. When
OE_N
I
not active, the transceiver is in the receive mode (CMOS level is relative to VIO).
Receive data output. Non-inverted CMOS level output for USB differential input
(CMOS output level is relative to VIO). Driven LOW when SUSPND mode is active;
RCV
O
(SUSPND is only enabled per the specific extended control table – see Table 4); RCV
output is stable and preserved during SE0 condition.
Single-ended D+ receiver output VP (CMOS level relative to VIO); used for external
detection of SE0, error conditions, speed of connected device; driven HIGH when no
VP
O
supply connected to VREG3V3.
Single-ended D- receiver output VM (CMOS level relative to VIO); used for external
detection of SE0, error conditions, speed of connected device; driven HIGH when no
VM
O
supply is connected to VREG3V3.
Suspend. Enables a low-power state (CMOS level is relative to VIO). While the
FUSB1500/1501 is suspended, it drives the RCV pin to logic “0” state. (Suspend is
SUSPND
I
only enabled per the specific extended control table – see Table 4).
High-Z input (CMOS level is relative to VIO). HIGH selects the high-Z mode, which puts
HiZ
I
all the outputs, including VPU, in high impedance. There is a 100kΩ weak pull-down
on this pin.
Supply voltage for digital I/O pins (1.65V to 3.6V). When not connected, the D+ and DVIO
pins are in three-state. This supply bus is independent of VPU and VREG3V3.
Speed selection input (CMOS level relative to VIO); adjusts the slew rate of differential
SPEED_N
I
outputs D+ and D- according to the extended control table (see Table 4).
DAI/O Data- bus connection.
D+
AI/O Data+ bus connection; for FS peripheral mode, connect to VPU via 1.5kΩ.
Driver data input (CMOS level is relative to VIO); Schmitt-trigger input; VO is input pin
for SE Mode (FUSB1500); VPO is input for Differential Mode (FUSB1501), see Table 2
VO/VPO
I
and Table 3.
Driver data input (CMOS level is relative to VIO); Schmitt-trigger input; FSE0 is input
pin for SE Mode (FUSB1500); VMO is input for Differential Mode (FUSB1501), see
FSE0/VMO
I
Table 2 and Table 3.
VREG3V3
Supply voltage input for 3.3V operation.
This interrupt is active LOW. It is asserted when an SE0 is seen on the USB bus (SE0
INT_N
O
detection circuit is only enabled per the specific extended control table). It is also
referenced to VIO.
Pull-up supply voltage (3.3V±300mV); connect an external 1.5kΩ resistor on D+
VPU
(FS data rate) or D- (LS data rate). Internal switch is controlled by the CONFIG,
SPEED_N, and SUSPND input pins (see Table 4).
USB connect or disconnect, software-control input. SPEED_N and SUSPND also gate
CONFIG
I
the pull-up resistor (see Table 4).
GND
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Pin Configuration
GND GND supply bonded to exposed die pad to be connected to the PCB GND.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
3
Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be
operable above the recommended operating conditions and stressing the parts to these levels is not recommended.
In addition, extended exposure to stresses above the recommended operating conditions may affect device
reliability. The absolute maximum ratings are stress ratings only.
Symbol
VIO
VPU,
VREG3V3
Parameter
Min.
Max.
Units
I/O Supply Voltage
-0.5
4.6
V
Regulated Supply Voltage and Pull-up Supply
-0.5
4.6
V
150
mA
ILU
Latch-up Current
VIN = -1.8 to +5.4V
IIK
DC Input Current
VIN
DC Input Voltage
IOK
DC Output Diode Current
VOUT
IOUT
IVREG3V3,
IGND
Test Conditions
VIN < 0
(1)
DC Output Voltage
-0.5
-50
mA
VIO +0.5
V
±50
mA
VIO +0.5
V
VOUT > VREG3V3 or < 0
(1)
-0.5
DC Output Source or Sink Current for D+, Dpins
VOUT = 0 to VREG3V3
±50
DC Output Source or Sink Current for RCV,
VM/VP
VOUT = 0 to VREG3V3
±15
mA
DC VVREG3V3 or GND Current
±100
Human Body Model, JEDEC: JESD22-A114
ESD
Pins D+, D-, ILI < 3μA
-10500
+10500
VREG3V3, VIO, and
GND; ILI < 3μA;
-12000
+12000
All Other Pins,
ILI < 1μA
-6500
+6500
V
Machine Model, JESD22-A115
200
Charged Device Model, JEDEC: JESD-C101
+1500
IEC 61000-4-2
TSTG
PD
mA
Air Gap
+15000
Contact
+8000
Storage Temperature Range
-40
Power Dissipation
+125
ICC(VREG3V3)
48
ICCIO
9
°C
mW
Note:
1. Absolute maximum ratings for I/O must be observed.
Recommended Operating Conditions
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Absolute Maximum Ratings
The Recommended Operating Conditions table defines the conditions for actual device operation. Recommended
operating conditions are specified to ensure optimal performance to the datasheet specifications. Fairchild does not
recommend exceeding them or designing to absolute maximum ratings.
Symbol
VREG3V3
VIO
Parameter
Min.
Max.
Units
DC Supply Voltage
3.0
3.6
V
I/O DC Voltage
1.65
3.6
V
VIN
DC Input Voltage Range
VAI/O
DC Input Range for AI/Os
TA
Test Conditions
Pins D+ and D-
Operating Ambient Temperature
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
0
VIO
V
0
3.6
V
-40
+85
°C
www.fairchildsemi.com
4
Unless otherwise noted, values are over the recommended range of supply voltage and operating free air
temperature. VREG3V3 = 3.0V to 3.6V and VIO = 1.65V to 3.6V.
Symbol
Parameter
Test Conditions
Regulated Supply Input
IVREG3V3
Operating Supply Current
(4)
(VREG3V3)
(4)
Units
Min.
Typ.
Max.
3.0
3.3
3.6
V
Transmitting and Receiving at
12Mbps; CLOAD = 50pF(D+, D-)
4
8
mA
Transmitting and Receiving at
12Mbps
1
2
mA
(2,3)
VREG3V3
TA=-40°C to 85°C
ICCIO
I/O Operating Supply Current
IIDLE
Supply Current During FS Idle and IDLE: VD+ ≥ 3.0V, VD- ≤ 0.3V;
(5)
SE0 (VREG3V3)
SE0: VD+ ≤ 0.3V, VD- ≤ 0.3V
500
μA
ICCIO(STATIC)
I/O Static Supply Current
IDLE, SUSPND, or SE0
20
μA
ISUSPND
Suspend (VREG3V3) Supply
(5)
Current
SUSPND = H; OE_N = H or L; D+
= D- = Not Floating; VM = VP =
Open
25
μA
IDISABLE
Disable-Mode (VREG3V3) Supply
(5)
Current
VIO Not Connected, D+ = D- =
Not Floating
25
μA
ISHARING
I/O Sharing-Mode Supply Current
VREG3V3 Not Connected
20
μA
ID± (SHARING)
Sharing-Mode Load Current on
D+/D- Pins
VREG3V3 Not Connected,
CONFIG = LOW, VD± = 3.6V
10
μA
VREF
VIO Threshold-Detection Voltage
Supply Lost
0.5
VIO_hys
VIO Threshold-Detection
(4)
Hysteresis Voltage
Supply Present
VREG3V3 = 3.3V
450
mV
Notes:
2. ILOAD includes the pull-up resistor current via the VPU pin.
3. The minimum voltage in Suspend Mode is 2.7V.
4. Not tested in production; value based on characterization.
5. Excludes any current from load and VPU or VSW current to the 1.5kΩ and 15kΩ pull-up / pull-down resistors
(200μA typical).
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
V
1.4
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Electrical Characteristics — Supply Pins DC Characteristics
www.fairchildsemi.com
5
Excludes D+ and D- pins. Unless otherwise noted, values are over the recommended range of supply voltage and
operating free air temperature. VREG3V3 = 3.0V to 3.6V and VIO = 1.65V to 3.6V.
Symbol
Parameter
Test Conditions
TA=-40°C to 85°C
Min.
Units
Max.
Input Levels
VIL
LOW-Level Input Voltage
VIH
HIGH-Level Input Voltage
0.3
0.6 • VIO
V
V
Output Levels
VOL
VOH
LOW-Level Output Voltage
HIGH-Level Output Voltage
IOL = 2.0mA
0.4
IOL = 100μA
0.15
V
IOH = 2.0mA
VIO - 0.4
IOH = 100μA
VIO - 0.15
V
Leakage Current
ILI
Input Leakage Current, Excluding HIZ
VIO = 1.65 to 3.60V
-1
+1
μA
10
pF
Capacitance
CIN, CI/O
Input Capacitance
(6)
Pin to GND
Resistance
RHIZ
RCHRGPU
Pull-Down Resistance on HIZ Input Pin
100
Pull-Up Resistance for CHRGR Function
105
Note:
6. Not tested in production; value based on characterization.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
kΩ
171
kΩ
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Electrical Characteristics — Digital Pins DC Characteristics
www.fairchildsemi.com
6
Unless otherwise noted, values are over the recommended range of supply voltage and operating free air
temperature. VREG3V3 = 3.0V to 3.6V and VIO = 1.65V to 3.6V.
Symbol
Parameter
Test Conditions
TA=-40°C to 85°C
Min.
Units
Max.
Input Levels – Differential Receiver
⏐ VIN(D+) - VIN(D-) ⏐
VDI
Differential Input Sensitivity
VCM
Differential Common Mode Voltage
0.2
0.8
V
2.5
V
0.8
V
Input Levels – Single-Ended Receiver
VIL
LOW-Level Input Voltage
VIH
HIGH-Level Input Voltage
VHYS
Hysteresis Voltage
2.0
(7)
0.4
V
0.7
V
0.3
V
2.8
3.6
V
-1
+1
µA
20
pF
44
Ω
Output Levels
VOL
VOH
LOW-Level Output Voltage
HIGH-Level Output Voltage
RL = 1.5kΩ to 3.6V
(8)
RL = 15kΩ to GND
Leakage Current
IOFF
Input Leakage Current – Off State
Capacitance
CI/O
I/O Capacitance
(7)
Pin to GND
Resistance
ZDRV
Driver Output Impedance
ZIN
Driver Input Impedance
RSW
Switch Resistance
VTERM
Termination Voltage
(9)
Steady State
10
ISW = 0 to 10mA
(10,11)
RPU - Upstream Port
Notes:
7. Not tested in production; value based on characterization.
8. VOH minimum = VREG3V3 – 0.2V.
9. Includes external 33Ω ± 1% on both D+ and D- pins to comply with USB2.0.
10. This voltage is available at the VPU and VREG3V3 pins.
11. Minimum voltage is 2.7V in Suspend Mode.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
34
3.0
MΩ
15
Ω
3.6
V
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Electrical Characteristics — Analog I/O Pins DC Characteristics
www.fairchildsemi.com
7
Unless otherwise noted, values are over the recommended range of supply voltage and operating free air
temperature. VREG3V3 = 3.0V to 3.6V and VIO= 1.65V to 3.6V.
Symbol
Parameter
Test Conditions
TA=-40°C to 85°C
Min.
(13)
Typ.
Units
Max.
Driver Characteristics, FS Mode
tFR
FS Output Rise Time
tFF
FS Output Fall Time
(13,14)
(13,14)
(13,14)
tFRFM
FS Rise/Fall Time Match
VCRS
Output Signal Crossover Voltage
(13,14)
10% to 90% ⏐VOH - VOL⏐;
CL = 50 pF; Figure 3
4
20
90% to 10% ⏐VOH - VOL⏐;
CL = 50 pF; Figure 3
4
20
tR/tF Excludes First Transition
from Idle State
90.0
111.
1
%
Excludes First Transition from
Idle State
1.3
2.0
V
10% to 90% ⏐VOH - VOL⏐;
CL = 50 to 600pF; Figure 3
75
300
ns
90% to 10% ⏐VOH - VOL⏐;
CL = 50 to 600pF; Figure 3
75
300
tR/tF Excludes First Transition
from Idle State
80
125
%
Excludes First Transition from
Idle State
1.3
2.0
V
20
ns
20
ns
18
ns
18
ns
18
ns
18
ns
21
ns
21
ns
18
ns
18
ns
VREG3V3/2
±200mV
ns
Driver Characteristics, LS Mode
tLR
LS Output Rise Time
tLF
LS Output Fall Time
(13,14)
(13,14)
(13,14)
tLRFM
LS Rise/Fall Time Match
VCRS
Output Signal Crossover Voltage
(13,14)
Driver Timing, FS Mode
tPLH
tPHL
tPHZ
Propagation Delay,
FSE0/VO/VPO/ VMO to D+/D-
Input Edge Rates = 2.5ns;
Figure 4
Driver Disable Delay, OE_N to D+/D-
Figure 6 , Figure 8
tPLZ
tPZH
Driver Enable Delay, OE_N to D+/D-
Figure 6 , Figure 8
tPZL
Driver Timing, LS Mode
(13)
Receiver Timing, FS and LS Mode
tPLH
tPHL
tPLH
tPHL
Differential Receiver Propagation
(15)
Delay, D+/D- to RCV
CL = 15pF, Figure 5, Figure 9
Single-Ended Receiver Propagation
Delay, D+/D- to VP, VM
CL = 15pF, Figure 5, Figure 9
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Electrical Characteristics — AI/O Pins AC Characteristics, Full Speed
(13)
SE0 Detection Timing
tPWSE0
SE0 Pulse Width Detection for
(13)
INT_N
Suspend,
Config,Speed_N=011
VIO=VREG3V3= 3.6V
260
ns
Notes:
12. Edge rates of Low Speed (LS) mode dominate; consequently, there are no propagation delays specified for LS Mode.
13. Not production tested; guaranteed by characterization.
14. Typical conditions are at 25°C and 3.3V.
15. Excludes exiting Suspend or HiZ Mode.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
8
tRISE
VIO
tFALL
Logic Input
VIO /2
VIO /2
GND
V OH
90%
10%
V OL
t PLH
90%
t PHL
D+ VOH
10%
VCRS
VCRS
D- VOL
Figure 3. Rise and Fall Time
D+
Figure 4. VO/FSE0/VPO/VMO to D+/D-
1.8V
2.0
0.8
D-
VCRS
t PLH
V OH
0V
tPZH
tPZL
t PHL
tPHZ
tPLZ
V OH
VIO/2
Logic Output
V OL
VIO/2
Figure 6. OE_N to D+/D-
Vpu
33
Test Point
33
Dn
VOH - 0.3
VOL+0.3
V CRS
V OL
Figure 5. D+/D- to RCV, VP, and VM
D.U.T
0.9V
0.9V
VCRS
Test Point
500
D.U.T
1.5K [1]
V
15K
RL
50pF
CL
V = 0 for tPZH, tPHZ
V = VREG for tPZL, tPLZ
CL= 50 to 125pf, Full Speed
CL= 50 to 600pf, Low Speed
[1] FS
mode connect to D+; D+ and D- to be matched for R L /C L termination.
Figure 7. Load for D+/D-
Figure 8. Load for Enable and Disable Time
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Typical Performance Characteristics
Test Point
DUT
15pf
Figure 9. Load for VM, VP, and RCV
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
9
The FUSB1500/1501 is defined as a self-powered
device, or bus-powered where the regulation down to
3.3V is external to the FUSB1500/1501, so it accepts
the regulated 3.3V as its supply input. The VIO rail
supports I/Os of 1.65V to 3.6V.
The FUSB1500/1501 transceiver is designed to convert
CMOS data into USB differential bus signal levels and
to convert USB differential bus signals to CMOS data.
The FUSB1500 supports the SE Mode interface from
the controller, whereas the FUSB1501 supports the
differential control interface. In addition, both devices
have an extended Control Mode that enables a
simplified dedicated charger functionality via a weak
pull-up resistance (nominally 125kΩ). This mode is
described in Table 4.
If VIO is lost, the pins go into the high-Z state. If VIO is
present, but the VREG3V3 power supply is lost, the high-Z
detection circuit still functions.
USB Mode
To minimize EMI and noise, the outputs are edge-rate
controlled with the rise and fall times defined for fullspeed (12Mbps) and low-speed (1.5Mbps) data rates.
The rise and fall times are balanced between the
differential pins to minimize skew.
Table 1 describes the specific pin functionality when
USB Traffic Mode is selected. This is also referred to as
normal mode. Table 2 and Table 3 describe the specific
truth tables for driver and receiver operating functions.
Table 1. Function Table for USB Mode
OE_N
Hi-Z
D+, D-
RCV
VP/VM
Function
LOW
LOW
Driving & Receiving
Active
Active
Normal Driving (Differential Receiver Active)
HIGH
LOW
LOW
Receiving
LOW
Driving
(16)
Active
Inactive
Active
Active
(17)
(18
)
Receiving
Driving during Suspend (Differential
Receiver Inactive)
Notes:
16. Signal levels on the D+ and D- pins are determined by external connections and Table 4 (Extended Control
Configurations).
17. When in Suspend Mode (see Table 4 for suspended configurations), the differential receiver is inactive and the
RCV output is forced LOW. Out-of-suspend signaling (K) is detected via the single-ended receiver outputs VP
and VM.
18. The states of VP and VM are functions of signal levels on D+/D- in normal mode.
Table 2. Driver Function (OE_N = L, HiZ= L or Floating ) USB Transmit Mode
FSE0/VMO
VO/VPO
FUSB1500
FUSB1501
Data (D+, D-)
Data (D+, D-)
LOW
Differential Logic 0 (01)
LOW
HIGH
Differential Logic 1 (10)
Differential Logic 1 (10)
HIGH
LOW
SE0
(19)
(00)
Differential Logic 0 (01)
SE0
(19)
(00)
Illegal State (11)
HIGH
HIGH
SE0
(19)
LOW
(00)
Note:
19. SE0 – Single-Ended Zero.
Table 3. Receiver Function (OE_N = H, HiZ= L or Floating ) USB Receive Mode
(20)
(20)
D+, D-
RCV
VP
Differential Logic 1
HIGH
HIGH
LOW
Differential Logic 0
LOW
LOW
HIGH
LOW
LOW
HIGH
HIGH
SE0
RCV
(22)
X-(Sharing Mode)
(21)
LOW
VM
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Functional Description
Note:
20. VP = VM = HIGH indicates Sharing Mode.
21. Denotes the signal level on output RCV prior to the SE0 event. This level is stable during the SE0 event period.
22. Sharing mode is not a function of D+/D- but is entered when VIO is present and VREG3V3 is disconnected.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
10
(HL transition). The host detects this INT_N signal and
configures the inputs to the pattern “110” or “010” to
keep the 1.5kΩ pull-up enabled. The INT_N signal is
then de-asserted and the SE0 detector reset.
Extended Control Mode
This block of control has a multi-function role; it is used
to signal a SE0 detect to the host via INT_N and uses a
weak resistor pull-up method for charger detection.
If a code other than “010” or “110” is written, the mode
configuration is a function as described in Table 4 and the
SE0 detector and INT_N are de-asserted to reset states.
Note that the signaling of SE0 via INT_N is only
enabled for the state “011” and all SE0 events can still
be decoded from the VP, VM, and RCV outputs.
When entering the state “111,” which enables the weak
pull up resistor for charger detection, the D+/D- drivers
are automatically configured to USB receive mode
(equivalent to OE_N HIGH).
When the three inputs (SUSPND, CONFIG, and
SPEED_N) are not “011,” INT_N is not active; the SE0
detector (RCV = 0) is not active and its latch is set to
HIGH. When the “011” is seen on the inputs, the
FUSB1500/1501 is waiting for an SE0 event. When the
SE0 event (deglitched) is detected, INT_N goes active
Figure 10.
Figure 10 shows the extended control logic and Table 4
the truth table for the extended control.
Extended Control Function
Table 4. Extended Control
Hi-Z
SUSPND CONFIG SPEED_N
Function
0
0
0
0
No 1.5kΩ Pull-up
FS
USB Mode, Default
State
0
0
1
0
1.5kΩ Pull-up
FS
USB Mode
0
0
0
1
No 1.5kΩ Pull-up
LS
USB Mode
0
0
1
1
Pull-up On After Detecting SE0
FS
Suspend, Conditional
Pull-up
0
1
0
0
No 1.5kΩ Pull-up
FS
Suspend
0
1
1
0
1.5kΩ Pull-up
FS
Suspend
0
1
0
1
No 1.5kΩ Pull-up
LS
Suspend
0
1
1
1
No 1.5kΩ Pull-up, 125kΩ Pull-up
Connected
USB Rx Mode &
RWPU On
1
X
X
X
VP, VM, D+, D-, RCV High
Impedance, SW1 and SW2 Open
Hi-Z Mode
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
FUSB1500/1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Functional Description (Continued)
www.fairchildsemi.com
11
ƒ
Power Supply Configurations and Options
The three modes of power-supply operation are:
ƒ
Normal Mode – The VIO and VREG3V3 pins are
connected. VIO is an independent voltage source
(1.65 to 3.6V) that is a function of the external
circuit configuration.
ƒ
Disable Mode – VIO is not connected; VREG3V3 is
connected. In this mode, the D+, D- pins are threestate and the device enters low-power (suspended)
state upon detection of VIO lost.
ƒ
Hi-Z Mode – When the Hi-Z pin is pulled HIGH,
with VREG3V3 powered, the RCV/VP/VM interface
can be used to access the Baseband for production
test programming. VP/VM/RCV are in high
impedance states.
Sharing Mode – VIO is the only supply connected.
In this mode, the D+ and D- pins are three-state
and the FUSB1500 / FSUSB1501 allows external
signals up to 3.6V to share the D+ and D- bus
lines. Internally, the circuitry limits leakage from the
D+ and D- pins (maximum 10μA) and VIO such that
device is in low-power (suspended) state. The VP
and VM pins are driven HIGH and RCV is forced
LOW as an indication of this mode. Can be used
for production test programming via D+/D-. to
UART or Baseband processor. HiZ is to be Low or
Floating to ensure VP/VM/RCV is signaled to
processor.
A summary of the supply configurations is described in
Table 5.
Table 5. Power Supply Mode Configuration Options
Pin
Hi-Z
Sharing
Disable
Normal
VREG3V3
3.3V Externally
Supplied
Not Connected
Connected
3.3V Externally Supplied
VIO
1.65 - 3.6V
Source
1.65-3.60V
Source
Not Connected
1.65V- 3.60V Source
VPU
Three-State (Off)
Three-State (Off)
Three-State (Off)
Function of Mode Set-up
D+, D-
Three-State
Three-State
Three-State
Function of Mode Set-up
VP / VM
Three-State
HIGH
Invalid
(23)
Function of Mode Set-up
Invalid
(23)
Function of Mode Set-up
RCV
Three-State
LOW
VPO, VMO,
SPEED_N,OE_N,
SUSPND, CONFIG
Inputs
Inputs
Three-state
Function of Mode Set-up
HiZ
HIGH
LOW or Floating
Three-state
LOW or Floating
INT_N
HIGH
HIGH
Three-State
Function of Mode Set-up
Note:
23. Three-state or driven LOW.
Single Ended Zero Detection Timing
Exiting HiZ or Suspend Mode Timing
The SE0 detection logic is activated when entering the
state “011” (SUSPND, CONFIG, and SPEED_N) and
the logic waits to detect an SE0 event. Since the
FUSB1500/1501 can also be used as an LS host
device, it is important to ensure that the tLST time for the
USB2.0 specification is met. tLST is the minimum time to
not interpret LS differential signaling as an SE0 and is
210ns in duration. Similarly for FS differential signaling,
there is a time period, tFST time, of 14ns.
As the RCV path is required to maintain the previous
state through an SE0 event, there is the possibility
when exiting HiZ or Suspend Mode to have the previous
result stored. The transition through the SE0 decode
logic is such that software should ignore RCV for at
least 100ns when exiting HiZ mode to ensure the
correct D+/D- state is available on the RCV output.
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Functional Description (Continued)
Seeing an SE0 for greater than tLST results in the INT_N
pin toggling LOW. The FUSB1500/1501 is designed for
260ns (typical).
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
12
If the RCV/VP/VM interface is to be used by production
test then Hi-Z is pulled High, with VREG3V3 remaining
powered.
When in production test, to gain access to the
processor or UART, the D+/D- pins can be used
(Sharing Mode) or the RCV/VP/VM interface of the host
side of the FUSB1500/FUSB1501 (Hi-Z). If sharing the
D+/D- pins then VREG3V3 is unpowered and the
processor is signaled this mode via the VP/VM outputs
being pulled High and the RCV pin is pulled Low.
3.0-3.6V
1.65-1.95V
VIO
BaseBand
Processor
D+
D-
UNPOWERED
1.65-1.95V
VREG3V3
SUSPND
CONFIG
SPEED_N
OEb
VPO
FSE0
3-STATE
RCV
3-STATE VP
3-STATE
VM
HIGH
HiZ
Figure 11 indicates the production test scenarios.
VIO
3-STATE
BaseBand
Processor
3-STATE
VREG3V3
SUSPND
CONFIG
SPEED_N
OEb
VPO
FSE0
LOW
HIGH
HIGH
L
Production
Test Jig
D+
D-
RCV
VP
VM
HiZ
To UART
or
Baseband
Production
Test Jig
Using D+/D- as Interface to Production
Test -VREG3V3 Unpowered
Using RCV/VP/VM/HiZ as Interface to
Production Test -VREG3V3 Powered
Figure 11.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
Production Test Using Hi-Z or Sharing Mode
3-STATE
3-STATE
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Hi-Z and Sharing Mode for Production
Test
www.fairchildsemi.com
13
0.10 C
3.0
2X
A
3.20
2.20
1.35
B
PIN #1 IDENT.
3.0
0.50 TYP
1.35
2.20
3.20
0.10 C
0.50 TYP
2X
TOP VIEW
0.30 TYP
0.50 TYP
0.8 MAX (0.70-0.80)
0.10 C
0.08 C
RECOMMENDED LAND PATTERN
0.05
0.00
SIDE VIEW
C
0.25~0.35 12X
0.10
C A B
0.05
C
SEATING
PLANE
(3.10
2.90)
0.25~0.35 12X
0.10
C A B
0.05
C
2.50
2.45
1.45 MAX
5
0.30~0.40
0.10
0.05
9
0.73
(3.10
2.90) 2.50
1.45 MAX
2.45
0.50
1
PIN #1 IDENT
13
0.50
0.73
4X
C A B
C
0.30~0.40 4X
0.10
C A B
0.05
C
DETAIL A
DETAIL A
BOTTOM VIEW
NOTES:
A. SIMILAR TO JEDEC REGISTRATION MO-217,
B. DIMENSIONS ARE IN MILLIMETERS.
C. DIMENSIONS AND TOLERANCES PER
ASME Y14.5M, 1994
D. LANDPATTERN RECOMMENDATION IS PER
FSC INTERNAL DESIGN
E. DRAWING FILENAME: MLP16HBrev4
Figure 12. 16-Pin, Molded Leadless Package (MLP), JEDEC MO217 Equivalent, 3mm Square
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
Physical Dimensions
Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner
without notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify
or obtain the most recent revision. Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions,
specifically the warranty therein, which covers Fairchild products.
Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings:
http://www.fairchildsemi.com/packaging/.
Tape and Reel Specifications
Please visit Fairchild Semiconductor’s online packaging area for the most recent tape and reel specifications:
http://www.fairchildsemi.com/packaging/3x3MLP_Pack_TNR_16L.pdf.
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
14
FUSB1500 / FUSB1501 — USB2.0 Full-Speed / Low-Speed Transceiver with Charger Detection
© 2008 Fairchild Semiconductor Corporation
FUSB1500 / FUSB1501 • Rev. 1.0.0
www.fairchildsemi.com
15