STMicroelectronics HDMIULC6-4SC6Y Automotive ultralarge bandwidth esd protection Datasheet

HDMIULC6-4SC6Y
Automotive ultralarge bandwidth ESD protection
Datasheet  production data
Features
■
4-line 15 kV ESD protection
■
Protects VBUS when applicable
■
Ultrahigh bandwidth - no influence on signal
rise and fall times - maximized number of signal
harmonics
■
Very low leakage current: 0.5 µA max.
■
Fast response time compared with varistors
■
SOT23-6L package
■
RoHS compliant
Applications
Benefits
■
ESD standards compliance guaranteed at
device level, hence greater immunity at system
level
■
ESD protection of VBUS when applicable.
■
High efficiency due to low residual voltage
when confronted by an ESD surge
■
Minimized rise and fall times for maximum data
integrity
■
Consistent D+ / D- signal balance:
– Ultralow impact on intra-, inter-pair skew
– Matching high bit rate HDMI requirements
and ready for future evolution
■
Low PCB space occupation - 9 mm2 maximum
footprint
■
Higher reliability offered by monolithic
integration
Complies with these standards:
■
IEC 61000-4-2 level 4
– 15 kV air discharge
– 8 kV (and up to 15 kV) contact discharge
September 2012
This is information on a product in full production.
SOT23-6L
(JEDEC MO178AB)
■
HDMI ports at 1.65 Gb/s and up to 3.2 Gb/s
■
IEEE 1394a, b, or c up to 3.2 Gb/s
■
USB 2.0 ports up to 480 Mb/s (Hi-Speed)
■
Ethernet port: 10/100/1000 Mb/s
■
Video line protection
■
AEC-Q101 qualified
Description
The HDMIULC6-4SC6Y is a monolithic,
application specific discrete device dedicated to
ESD protection of the HDMI connection. It also
offers the same high level of protection for
IEEE 1394a and IEEE 1394b/c, USB 2.0,
Ethernet links, and video lines.
Its ultrahigh cutoff frequency (5.3 GHz) secures a
high level of signal integrity. The device topology
provides this integrity without compromising the
complete protection of ICs against the most
stringent ESD strikes.
Doc ID 018879 Rev 2
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12
Characteristics
1
HDMIULC6-4SC6Y
Characteristics
Figure 1.
Functional diagrams
I/O1
1
6
I/O4
GND
2
5
VBUS
I/O2
3
4
I/O3
When used with an HDMI
application, Pin 5 should not
be connected to protect
against backdrive current flow.
SOT23-6L
Table 1.
Absolute ratings
Symbol
Parameter
Value
Unit
±15
±15
±25
kV
-55 to +150
°C
IEC 61000-4-2 air discharge
IEC 61000-4-2 contact discharge
MIL STD883C-Method 3015-6
VPP
Peak pulse voltage
Tstg
Storage temperature range
Tj
Maximum junction temperature
125
°C
TL
Lead solder temperature (10 seconds duration)
260
°C
Table 2.
Electrical characteristics (Tamb = 25° C)
Value
Symbol
Parameter
Test conditions
Unit
Min.
IRM
Leakage current
VRM = 5 V
VBR
Breakdown voltage
between VBUS and GND
IR = 1 mA
VCL
Ci/o-GND
Ci/oGND
Ci/o-i/o
Max
0.5
6
µA
V
IPP = 1 A, tp = 8/20 µs
Any I/O pin to GND
12
V
IPP = 5 A, tp = 8/20 µs
Any I/O pin to GND
17
V
Clamping voltage
Capacitance between I/O VR = 0 V, F = 1 MHz
and GND
VR = 0 V, F = 825 MHz
Capacitance variation
between I/O and GND
Capacitance between I/O
1
0.6
pF
0.015
VR = 0 V, F = 1 MHz
0.42
VR = 0 V, F = 825 MHz
0.3
Capacitance variation
Ci/o-i/o
between I/O
2/12
Typ.
0.007
Doc ID 018879 Rev 2
0.5
pF
HDMIULC6-4SC6Y
Figure 2.
Characteristics
Line capacitance versus line
voltage (typical values)
Figure 3.
C(pF)
C(pF)
1.0
1.0
F=825MHz
Vosc=500mVRMS
VBUS OPEN
Tj =25 °C
0.9
0.8
0.7
Vosc=30mVRMS
Tj =25°C
VI-O/GND = 0V
VBUS OPEN
0.9
0.8
0.7
0.6
0.6
0.5
0.5
CI/O - GND
0.4
0.4
0.3
0.3
CI/O - GND
0.2
0.2
0.1
CI/O - CI/O
0.1
Data line voltage (v)
0
F(MHz)
0
0.0
Figure 4.
Line capacitance versus frequency
(typical values)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
Relative variation of leakage
current versus junction
temperature (typical values)
1
Figure 5.
10
100
1000
10000
Frequency response
S21(dB)
0.00
IRM[Tj] / IRM[Tj=25°C]
5
- 3.00
4
- 6.00
3
- 9.00
2
- 12.00
F(Hz)
Tj(°C)
- 15.00
1
1.0M
25
50
75
100
125
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Ligne
10.0M
100.0M
1.0G
1
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Application examples
2
HDMIULC6-4SC6Y
Application examples
Figure 6.
HDMI digital single link application using HDMIULC6-4SC6Y
Host
(Set Top Box,
DVD player, PC)
HDMI
Tx0-
Rx0-
Tx0+
Rx0+
TMDS
transmitter
HDMI connectors
TMDS
receiver
video
Multimedia
controller
Ctrl /
status
video
Rx1-
Tx1audio
Display
(TV, flat panel,
monitor,
projector)
Tx1+
Rx1+
Tx2-
Rx2-
Tx2+
Rx2+
audio
controller
Ctrl /
status
HDMIULC6-4SC6
TC-
RCRC+
TC+
TMDS links
CEC
CEC
SCL
SCL
Vcc 5V
Vcc 5V
HDMIULC6-4SC6
SDA
SDA
HPD
HPD
Control links
Figure 7.
T1/E1/Ethernet protection
Tx
SMP75-8
+VCC
4
3
5
2
6
Rx
SMP75-8
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Doc ID 018879 Rev 2
1
100 nF
Data
Transeiver
HDMIULC6-4SC6Y
2.1
Application examples
PCB layout considerations
For HDMI applications, VCC should not be connected. In this case the capacitor C in
Figure 8. is not needed.
Figure 8.
PCB layout considerations (VCC connection is application dependent)
D+1
HDMI
1
D-1
VCC
connector GND
side
C = 100 nF
D+2
D-2
HDMIULC6-4SC6
A differential impedance of 100  must be respected in the layout. Both lines of the
differential pair should have the same length.
Figure 9.
SOT23-6L Footprint dimensions (in mm)
1.20
[0.047]
1.10
[0.043]
0.60
[0.023]
0.95
[0.037]
2.30
[0.091]
3.50
[0.138]
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Technical information
HDMIULC6-4SC6Y
3
Technical information
3.1
Surge protection
The HDMIULC6-4SC6Y is particularly optimized to perform ESD surge protection based on
the rail to rail topology.
The clamping voltage VCL can be calculated as follows
–
VCL+ = VTransil + VF, for positive surges
–
VCL- = - VF, for negative surges
with: VF = VT + Rd.Ip
(VF forward drop voltage) / (VT forward drop threshold voltage)
and VTransil = VBR + Rd_Transil · IP
Calculation example
We assume that the value of the dynamic resistance of the clamping diode is typically:
Rd = 0.5  and VT = 1.1 V.
We assume that the value of the dynamic resistance of the Transil diode is typically
Rd_Transil = 0.5  and VBR = 6.1 V
For an IEC 61000-4-2 surge Level 4 (Contact Discharge: Vg = 8 kV, Rg = 330 ),
VBUS = +5 V, and, in first approximation, we assume that: Ip = Vg / Rg = 24 A.
We find:
–
VCL+ = +31.2 V
–
VCL- = -13.1 V
Note:
The calculations do not take into account phenomena due to parasitic inductances.
3.2
Surge protection application example
If we consider that the connections from the pin VBUS to VCC, from I/O to data line, and from
GND to PCB GND plane are two tracks 10 mm long and 0.5 mm wide, we can assume that
the parasitic inductances, LVBUS, LI/O, and LGND, of these tracks are about 6 nH. So when an
IEC 61000-4-2 surge occurs on the data line, due to the rise time of this spike (tr = 1 ns), the
voltage VCL has an extra value equal to LI/O.dI/dt + LGND.dI/dt.
The dI/dt is calculated as: dI/dt = Ip/tr = 24 A/ns for an IEC 61000-4-2 surge level 4 (contact
discharge Vg = 8 kV, Rg = 330 
The over voltage due to the parasitic inductances is:
LI/O.dI/dt = LGND.dI/dt = 6 x 24 = 144 V
By taking into account the effect of these parasitic inductances due to unsuitable layout, the
clamping voltage will be:
–
VCL+ = +31.2 + 144 +144 = 319.2 V
–
VCL- = -13.1 - 144 -144 = -301.1 V
We can reduce as much as possible these phenomena with simple layout optimization.
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HDMIULC6-4SC6Y
Technical information
It’s the reason why some recommendations have to be followed (see Section 3.3: How to
ensure good ESD protection).
Figure 10. ESD behavior: parasitic phenomena due to unsuitable layout
ESD surge
on data line
VCL+
VBUS
Data line
LI/O
LI/O
di L
VBUS
dt
L I/O
di
di
+ L GND
dt
dt
POSITIVE
SURGE
Vcc pin
VF
VTRANSIL
VTRANSIL +VF
VCL
I/O pin
t
tr=1ns
GND pin
LGND
LGND
tr=1ns
di
dt
t
-VF
di
di
+ L GND
dt
dt
di
di
- L GND
dt
dt
VCL + = VTRANSIL + VF + L I/O
VCL -
= - VF - L I/O
surge > 0
- L I/O
surge < 0
di
di
- L GND
dt
dt
NEGATIVE
SURGE
VTRANSIL = VBR + Rd.Ip
VCL-
3.3
How to ensure good ESD protection
While the HDMIULC6-4SC6Y provides a high immunity to ESD surge, an efficient protection
depends on the layout of the board. In the same way, with the rail to rail topology, the track
from data lines to I/O pins, from VCC to VBUS pin, and from GND plane to GND pin must be
as short as possible to avoid over voltages due to parasitic phenomena (see Figure 10 and
Figure 11 for layout considerations).
Figure 11. ESD behavior: layout
optimization
Figure 12. ESD behavior: measurement
conditions
ESD SURGE
TEST BOARD
Unsuitable layout
IN
OUT
HDMIULC6- 4SC6
Vbus
Optimized layout
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Technical information
HDMIULC6-4SC6Y
Figure 13.
Note:
Figure 14.
The measurements have been done with the HDMIULC6-4SC6Y in open circuit.
Important:
An important precaution to take is to put the protection device as close as possible to the
disturbance source (generally the connector).
3.4
Crosstalk behavior
Figure 15. Crosstalk phenomena
RG1
Line 1
VG1
RL1
RG2
α 1 VG1 + β12VG2
Line 2
VG2
RL2
DRIVERS
α 2VG2 + β21VG1
RECEIVERS
The crosstalk phenomena is due to the coupling between 2 lines. The coupling factor (12 or
21) increases when the gap across lines decreases, particularly in silicon dice. In the
example above the expected signal on load RL2 is 2VG2, in fact the real voltage at this point
has got an extra value 21VG1. This part of the VG1 signal represents the effect of the
crosstalk phenomenon of the line 1 on the line 2. This phenomenon has to be taken into
account when the drivers impose fast digital data or high frequency analog signals in the
disturbing line. The perturbed line will be more affected if it works with low voltage signal or
high load impedance (few k).
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HDMIULC6-4SC6Y
Technical information
Figure 16. Analog crosstalk measurements
TEST BOARD
NETWORK ANALYSER
PORT 2
NETWORK ANALYSER
PORT 1
Figure 16 gives the measurement circuit for the analog application. In usual frequency range
of analog signals (up to 240 MHz) the effect on disturbed line is less than -45 dB (see
Figure 17).
Figure 17. Analog crosstalk results
0.00
dB
- 30.00
- 60.00
- 90.00
F (Hz)
- 120.00
100.0k
1.0M
10.0M
100.0M
1.0G
As the HDMIULC6-4SC6Y is designed to protect high speed data lines, it must ensure a
good transmission of operating signals. The frequency response (Figure 5.) gives
attenuation information and shows that the HDMIULC6-4SC6Y is well suitable for data line
transmission up to 3.2 Gb/s.
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Package information
4
HDMIULC6-4SC6Y
Package information
●
Epoxy meets UL94, V0
●
Lead-free package
In order to meet environmental requirements, ST offers these devices in different grades of
ECOPACK® packages, depending on their level of environmental compliance. ECOPACK®
specifications, grade definitions and product status are available at: www.st.com.
ECOPACK® is an ST trademark.
Table 3.
SOT23-6L dimensions
Dimensions
Ref.
Millimeters
Min. Typ. Max.
c
Inches
Min.
Typ.
Max.
A
0.90
1.45 0.035
0.057
A1
0
0.15
0.006
A2
0.90
1.30 0.035
0.051
b
0.30
0.50 0.012
0.020
c
0.09
0.20 0.004
0.008
D
2.80
3.05
0.11
0.118
E
1.50
1.75 0.059
0.069
A1
θ
L
0
H
A
E
e
D b
e
e
A2
0.95
H
2.60
3.00 0.102
0.118
L
0.30
0.60 0.012
0.024

0°
10°
Figure 18. Footprint (dimensions in mm)
0.60
1.20
0.95
3.50
10/12
2.30
Doc ID 018879 Rev 2
0.037
1.10
0°
10°
HDMIULC6-4SC6Y
5
Ordering information
Ordering information
Table 4.
6
Ordering information
Order code
Marking
Package
Weight
Base qty
Delivery mode
HDMIULC6-4SC6Y
DL4Y
SOT23-6L
16.7 mg
3000
Tape and reel
Revision history
Table 5.
Document revision history
Date
Revision
Changes
24-May-2011
1
First issue.
06-Sep-2012
2
Updated dimension A1 max., b min. and L min. in Table 3.
Doc ID 018879 Rev 2
11/12
HDMIULC6-4SC6Y
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