STMICROELECTRONICS USBUF01P6

USBUF01P6
IPAD™
EMI filter and line termination for USB upstream ports
Applications
EMI Filter and line termination for USB upstream
ports on:
■
■
USB Hubs
PC peripherals
Features
■
■
■
■
Monolithic device with recommended line
termination for USB upstream ports
Integrated Rt series termination and Ct
bypassing capacitors.
Integrated ESD protection
Small package size
SOT-666IP
(Internal pad)
Functional diagram
Description
3.3 V
The USB specification requires upstream ports to
be terminated with pull-up resistors from the D+
and D- lines to Vbus. On the implementation of
USB systems, the radiated and conducted EMI
should be kept within the required levels as stated
by the FCC regulations. In addition to the
requirements of termination and EMC
compatibility, the computing devices are required
to be tested for ESD susceptibility.
The USBUF01P6 provides the recommended line
termination while implementing a low pass filter to
limit EMI levels and providing ESD protection
which exceeds IEC 61000-4-2 level 4 standard.
The device is packaged in a SOT-666 which is the
smallest available lead frame package (45%
smaller than the standard SOT323).
Rt
■
■
■
■
EMI / RFI noise suppression
Required line termination for USB upstream
ports
ESD protection exceeding
IEC 61000-4-2 level 4
High flexibility in the design of high density
boards
Tailored to meet USB 2.0 standard (low speed
and full speed data transmission)
Grd
3.3 V
Rt
D2
D3
Ct
Complies with the following standards:
IEC 61000-4-2 level4:
15 kV(air discharge)
8 kV(contact discharge)
MIL STD 883E-Method 3015-7:
Class 3 C = 100 pF R = 1500 Ω
3 positive strikes and 3 negative strikes (F = 1 Hz)
Order codes
TM: IPAD is a trademeark of STMicroelectronics
August 2006
D4
Ct
Benefits
■
Rp
D1
Rev 6
Part Number
Marking
USBUF01P6
U
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www.st.com
9
Characteristics
1
USBUF01P6
Characteristics
Table 1.
Absolute maximum rating (Tamb = 25° C)
Symbol
Parameter
VPP
ESD discharge
Unit
± 16
±9
± 25
kV
150
°C
-55 to +150
°C
260
°C
-40 to + 85
°C
IEC61000-4-2 air discharge
IEC61000-4-2 contact discharge
MIL STD 883E - Method 3015-7
Junction temperature
Tj
Tstg
Storage temperature range
TL
Maximum lead temperature for soldering during 10 s at 5 mm for case
Top
Operating temperature range
Table 2.
Electrical characteristics (Tamb = 25° C)
Symbol
Parameter
VRM
Stand-off voltage
VBR
Breakdown voltage
VCL
Clamping voltage
IRM
Leakage current
IPP
Peak pulse current
αT
Voltage temperature coefficient
VF
Forward voltage drop
Rd
Dynamic resistance
Symbol
2/9
Value
Test conditions
I
IF
VF
VCL VBR VRM
V
IRM
Slope = 1/Rd
Min.
Typ.
6
IPP
Max.
Unit
10
V
500
nA
VBR
IR = 1 mA
IRM
VRM = 3.3 V per line
Rt
Tolerance ± 10%
33
Ω
Rp
Tolerance ± 10%
1.5
kΩ
Ct
Tolerance ± 20%
47
pF
USBUF01P6
2
Technical information
Technical information
Figure 1.
USB Standard requirements.
3.3V
1.5k
Rt
Full-speed or
Low-speed USB
Transceiver
Twisted pair shielded
Rt
Zo = 90ohms
5m max
DHost or
Hub port
15k
Ct
Rt
D+
D+
Ct
15k
Ct
Full-speed USB
Transceiver
Ct
Hub 0 or
Full-speed function
Ct
Low-speed USB
Transceiver
Ct
Hub 0 or
Low-speed function
Rt
D-
FULL SPEED CONNECTION
3.3V
1.5k
Ct
Untwisted unshielded
Rt
3m max
DHost or
Hub port
Ct
15k
Rt
D+
D+
Rt
Full-speed or
Low-speed USB
Transceiver
Rt
D-
15k
LOW SPEED CONNECTION
Application example
Implementation of ST solutions for USB ports.
Host/Hub USB por transceivert
Downstream port
USBUF01W6
USBDF01W5
D2
Rt
D+
D+ in
Ct Rd
D+ out
D+
Gnd
D+
Ct
Ct
Rt
3.3 V
Rt
Gnd
DD- in
Rt
D1
CABLE
Gnd
Ct Rd
Upstream port
D+
Peripheral transceiver
Figure 2.
D-
D-
Rp
D- out
D3
3.3V
D4
D-
FULL SPEED CONNECTION
USBUF01W6
USBDF01W5
D2
Rt
D+
D+ in
Ct Rd
D+ out
D+
Gnd
CABLE
D+
Ct
Gnd
Ct
Rt
3.3 V
Rt
Gnd
Ct Rd
DD- in
Rt
D-
Upstream port
D+
D1
Peripheral transceiver
Downstream port
Host/Hub USB por transceivert
2.1
D-
D- out
Rp
D3
3.3V
D4
D-
LOW SPEED CONNECTION
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Technical information
2.1.1
USBUF01P6
EMI filtering
Current FCC regulations requires that class B computing devices meet specified maximum
levels for both radiated and conducted EMI.
●
Radiated EMI covers the frequency range from 30 MHz to 1GHz.
●
Conducted EMI covers the 450 kHz to 30 MHz range.
For the types of devices utilizing the USB, the most difficult test to pass is usually the
radiated EMI test. For this reason the USBUF01P6 device is aiming to minimize radiated
EMI.
The differential signal (D+ and D-) of the USB does not contribute significantly to radiated or
conducted EMI because the magnetic field of both conductors cancels each other.
The inside of the PC environment is very noisy and designers must minimize noise coupling
from the different sources. D+ and D- must not be routed near high speed lines (clocks
spikes).
Induced common mode noise can be minimized by running pairs of USB signals parallel to
each other and running grounded guard trace on each side of the signal pair from the USB
controller to the USBUF device.
If possible, locate the USBUF device physically near the USB connectors. Distance between
the USB controller and the USB connector must be minimized.
The 47 pF (Ct) capacitors are used to bypass high frequency energy to ground and for edge
control, and are placed between the driver chip and the series termination resistors (Rt).
Both Ct and Rt should be placed as close to the driver chip as is practicable.
The USBUF01P6 ensures a filtering protection against electro-magnetic and radio
frequency Interference thanks to its low-pass filter structure. This filter is characterized by
the following parameters:
●
cut-off frequency
●
insertion loss
●
high frequency rejection.
Figure 3.
USBUF01P6 typical
attenuation curve.
Figure 4.
Measurement configuration.
0.00
dB
--2.50
--5.00
--7.50
50Ω
TEST BOARD
UUx
--10.00
--12.50
Vg
--15.00
--17.50
--20.00
--22.50
--25.00
1.0M
3.0M
10.0M
30.0M
100.0M
f/Hz
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300.0M
1.0G
3.0G
50Ω
USBUF01P6
2.1.2
Technical information
ESD protection
In addition to the requirements of termination and EMC compatibility, computing devices are
required to be tested for ESD susceptibility. This test is described in the IEC 61000-4-2 and
is already in place in Europe. This test requires that a device tolerates ESD events and
remains operational without user intervention.
The USBUF01P6 is particularly optimized to perform ESD protection. ESD protection is
based on the use of device which clamps at:
V CL = V BR + R d ⋅ I PP
This protection function is splitted in 2 stages. As shown in Figure 5. the ESD strikes are
clamped by the first stage S1 and then its remaining overvoltage is applied to the second
stage through the resistor Rt. Such a configuration makes the output voltage very low at the
output.
Figure 5.
USBUF01P6 ESD clamping behavior.
Rg
S1
Rt
Rd
VPP
ESD
SURGE
VBR
USBUF01P6
Device
to be
protected
Measurement board.
TEST BOARD
Vin
U
15kV
Air
Discharge
Rload
Voutput
ESD Surge
Figure 6.
Rd
Vinput
VBR
S2
Vout
To have a good approximation of the remaining voltages at both Vin and Vout stages, we
give the typical dynamical resistance value Rd. By taking into account these following
hypothesis : Rt>Rd, Rg>Rd and Rload>Rd, it gives these formulas:
R g ⋅ V BR + R d ⋅ V g
Vinput = ---------------------------------------------Rg
R t ⋅ V BR + R d ⋅ Vinput
Voutput = --------------------------------------------------------Rt
The results of the calculation done for Vg = 8 kV, Rg = 330 Ω (IEC 61000-4-2 standard),
VBR = 7 V (typ.) and Rd = 2 Ω (typ.) give:
Vinput = 55.48 V
Voutput = 10.36 V
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Technical information
USBUF01P6
This confirms the very low remaining voltage across the device to be protected. It is also
important to note that in this approximation the parasitic inductance effect was not taken into
account. This could be few tenths of volts during few ns at the Vinput side. This parasitic
effect is not present at the Voutput side due the low current involved after the resistance Rt.
The measurements done hereafter show very clearly (Figure 7.a) the high efficiency of the
ESD protection:
–
no influence of the parasitic inductances on Voutput stage
–
Voutput clamping voltage very close to VBR (breakdown voltage) in the positive way
and -VF (forward voltage) in the negative way
Figure 7.
Remaining voltage at both stages S1 (Vinput) and S2 (Voutput) during ESD
surge.
a: Positive surge
b: Negative surge
Please note that the USBUF01P6 is not only acting for positive ESD surges but also for
negative ones. For these kinds of disturbances it clamps close to ground voltage as shown
in Figure 7.b.
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USBUF01P6
3
Package information
Package information
Table 3.
SOT-666 internal pad dimensions
Dimensions
Ref.
b1
L1
Millimeters
Min.
Typ.
Max.
Inches
Min.
Typ.
Max.
L4
L3
b
D
E1
A
L2
E
A3
A
0.45
0.60 0.018
0.024
A3
0.08
0.18 0.003
0.007
b
0.17
0.34 0.007
0.013
b1
0.19
D
1.50
1.70 0.059
0.067
E
1.50
1.70 0.059
0.067
E1
1.10
1.30 0.043
0.051
Figure 8.
0.34 0.007 0.011 0.013
e
0.50
0.020
L1
0.19
0.007
L2
e
0.27
0.10
0.30 0.004
0.012
L3
0.10
0.004
L4
0.60
0.024
SOT-666 internal pad footprint (dimensions in mm)
0.50
0.30
0.99
0.21
0.62
2.60
1.40
0.20
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Ordering information
Table 4.
USBUF01P6
Mechanical specifications
Lead plating
Tin-lead
Lead plating thickness
5 µm min
25 µm max
Lead material
Sn
(100% Sn)
Lead coplanarity
10 µm max
Body material
Molded epoxy
Flammability
UL94V-0
In order to meet environmental requirements, ST offers these devices in ECOPACK®
packages. These packages have a lead-free second level interconnect. The category of
second level interconnect is marked on the package and on the inner box label, in
compliance with JEDEC Standard JESD97. The maximum ratings related to soldering
conditions are also marked on the inner box label. ECOPACK is an ST trademark.
ECOPACK specifications are available at: www.st.com.
4
5
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Ordering information
Part Number
Marking
Package
Weight
Base qty
Delivery mode
USBUF01P6
U
SOT-666IP
2.9 mg
3000
Tape and reel
Revision history
Date
Revision
Description of Changes
September-2003
1
First issue.
01-Jun-2004
2
SOT-666 Internal Pad version package change.
08-Jun-2005
3
Minor format changes; no content changed.
10-Mar-2006
4
Footprint and dimension graphic improved in packaging
information. Ecopack statement added. Reformatted to
current standard.
16-Aug-2006
5
Updated SOT-666IP package dimensions in Table 3.
29-Aug-2006
6
Typing error in table 2 on page 2: change W and kW unit
to Ω and kΩ unit.
USBUF01P6
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