NSC LMH0202MT

LMH0202
Dual SMPTE 292M / 259M Serial Digital Cable Driver
General Description
Features
The LMH0202 Dual SMPTE 292M / 259M serial digital cable
driver is a monolithic, high-speed cable driver designed for
use in SMPTE 292M / 259M serial digital video and ITU-T
G.703 serial digital data transmission applications. The
LMH0202 drives 75Ω transmission lines (Belden 8281,
Belden 1694A or equivalent) at data rates up to 1.485 Gbps.
n SMPTE 292M, SMPTE 344M and SMPTE 259M
compliant
n Data rates to 1.485 Gbps
n Dual differential inputs
n Dual 75Ω differential outputs
n Two selectable slew rates
n Adjustable output amplitude
n Single 3.3V supply operation
n Commercial temperature range: 0˚C to +70˚C
n Typical power consumption: 250mW in SD mode and
298mW in HD mode
The LMH0202 provides two selectable slew rates for
SMPTE 259M and SMPTE 292M compliance. The output
voltage swing is adjustable via a single external resistor.
The LMH0202 offers the flexibility to implement either dual
differential inputs or a single differential input (externally
routed via PCB) to dual differential outputs. The latter option
provides an ideal solution for DVB-ASI applications where
only the non-inverted outputs are typically used.
The LMH0202 is powered from a single 3.3V supply. Power
consumption is typically 250mW in SD mode and 298mW in
HD mode.
Applications
n SMPTE 292M, SMPTE 344M, and SMPTE 259M serial
digital interfaces
n DVB-ASI applications
n Sonet/SDH and ATM interfaces
n Digital routers and switches
n Distribution amplifiers
n Buffer applications
n Video cameras
Connection Diagram
20173101
16-Pin TSSOP
Order Number LMH0202MT
See NS Package Number MTC16
© 2006 National Semiconductor Corporation
DS201731
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LMH0202 Dual SMPTE 292M / 259M Serial Digital Cable Driver
February 2006
LMH0202
Typical Application
20173102
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Supply Voltage:
Input Voltage (all inputs)
−0.3V to VCC+0.3V
−65˚C to +150˚C
+150˚C
Lead Temperature
(Soldering 4 Sec)
3.3V ± 5%
Supply Voltage (VCC – VEE):
Operating Free Air Temperature (TA)
LMH0202MT
+260˚C
Package Thermal Resistance
θJA 16-pin TSSOP
θJC 16-pin TSSOP
250V
Recommended Operating
Conditions
28mA
Junction Temperature
5kV
ESD Rating (MM)
−0.5V to 3.6V
Output Current
Storage Temperature Range
ESD Rating (HBM)
0˚C to +70˚C
+125˚C/W
+105˚C/W
DC Electrical Characteristics
Over Supply Voltage and Operating Temperature ranges, unless otherwise specified (Notes 2, 3).
Symbol Parameter
VCMIN
Input Common Mode Voltage
VSDI
Input Voltage Swing
Conditions
Output Voltage Swing
VSDHD
SD/HD Input Voltage
ISDHD
SD/HD Input Current
ICC
Supply Current
Min
Max
Units
SDI1, SDI1,
SDI2, SDI2
1.6 +
VSDI/2
VCC –
VSDI/2
V
100
2000
mVP−P
Differential
VCMOUT Output Common Mode Voltage
VSDO
Reference
SDO1, SDO1,
SDO2, SDO2
Typ
VCC –
VSDO
V
Single-ended, 75Ω load,
RREF1 = 750Ω 1%
RREF2 = 750Ω 1%
750
800
850
mVP-P
Single-ended, 75Ω load,
RREF1 = 590Ω 1%
RREF2 = 590Ω 1%
900
1000
1100
mVP-P
Min for SD
SD/HD1,
SD/HD2
Max for HD
2.4
V
0.8
3.7
V
µA
SD/HD1 = 0, SD/HD2 = 0,
(Note 5)
90
98
mA
SD/HD1 = 1, SD/HD2 = 1,
(Note 5)
76
86
mA
Typ
Max
Units
1485
Mbps
AC Electrical Characteristics
Over Supply Voltage and Operating Temperature ranges, unless otherwise specified (Note 3).
Symbol Parameter
Conditions
Reference
DRSDI
Input Data Rate
(Note 4)
SDI1, SDI1,
SDI2, SDI2
tjit
Additive Jitter
1.485 Gbps
SDO1, SDO1,
SDO2, SDO2
270 Mbps
tr,tf
Output Rise Time, Fall Time
Min
SD/HD1 = 0, SD/HD2 = 0,
20% – 80%, (Note 6)
SD/HD1 = 1, SD/HD2 = 1,
20% – 80%, (Note 6)
Mismatch in Rise/Fall Time
(Note 4)
tOS
Output Overshoot
(Note 4)
RLSDO
Output Return Loss
(Note 7)
400
26
psP-P
18
psP-P
120
220
ps
560
800
ps
30
ps
8
15
20
%
dB
Note 1: "Absolute Maximum Ratings" are those parameter values beyond which the life and operation of the device cannot be guaranteed. The stating herein of
these maximums shall not be construed to imply that the device can or should be operated at or beyond these values. The table of "Electrical Characteristics"
specifies acceptable device operating conditions.
Note 2: Current flow into device pins is defined as positive. Current flow out of device pins is defined as negative. All voltages are stated referenced to VEE = 0 Volts.
Note 3: Typical values are stated for VCC = +3.3V and TA = +25˚C.
Note 4: Specification is guaranteed by characterization.
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LMH0202
Absolute Maximum Ratings (Note 1)
LMH0202
Note 5: Maximum ICC is measured at VCC = +3.465V and TA = +70˚C.
Note 6: Specification is guaranteed by characterization and verified by test.
Note 7: Output return loss is dependent on board design. The LMH0202 meets this specification on the SD202 evaluation board from 5MHz to 1.5GHz.
Pin Descriptions
Pin #
Name
Description
1
SDI1
Serial data true input.
2
SDI1
Serial data complement input.
3
VEE1
Negative power supply (ground).
4
RREF1
Output driver level control. Connect a resistor to VCC to set output voltage swing.
5
SDI2
Serial data true input.
6
SDI2
Serial data complement input.
7
VEE2
Negative power supply (ground).
8
RREF2
Output driver level control. Connect a resistor to VCC to set output voltage swing.
9
VCC2
Positive power supply (+3.3V).
10
SD/HD2
Output slew rate control. Output rise/fall time complies with SMPTE 292M when low and
SMPTE 259M when high.
11
SDO2
Serial data complement output.
12
SDO2
Serial data true output.
13
VCC1
Positive power supply (+3.3V).
14
SD/HD1
Output slew rate control. Output rise/fall time complies with SMPTE 292M when low and
SMPTE 259M when high.
15
SDO1
Serial data complement output.
16
SDO1
Serial data true output.
Device Operation
INPUT INTERFACING
The LMH0202 accepts either differential or single-ended
input. The inputs are self-biased, allowing for simple AC or
DC coupling. DC-coupled inputs must be kept within the
specified common-mode range. SDI and SDI are self-biased
at approximately 2.1V with VCC = 3.3V. Figure 1 shows the
differential input stage for SDI and SDI.
20173104
FIGURE 1. Differential Input Stage for SDI and SDI.
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(Continued)
OUTPUT INTERFACING
DVB-ASI APPLICATIONS
The LMH0202 uses current mode outputs. Single-ended
output levels are 800 mVP-P into 75Ω AC-coupled coaxial
cable (with RREF = 750Ω). Output level is controlled by the
value of the resistor connected between the RREF pin and
VCC.
The RREF resistor should be placed as close as possible to
the RREF pin. In addition, the copper in the plane layers
below the RREF network should be removed to minimize
parasitic capacitance.
The dual differential inputs of the LMH0202 may be externally routed to a single differential input as shown in Figure
2. This provides a solution for DVB-ASI applications where
two non-inverted outputs are needed.
OUTPUT SLEW RATE CONTROL
The LMH0202 output rise and fall times are selectable for
either SMPTE 259M or SMPTE 292M compliance via the
SD/HD pin. For slower rise and fall times, or SMPTE 259M
compliance, SD/HD is set high. For faster rise and fall times,
or SMPTE 292M compliance, SD/HD is set low.
20173103
FIGURE 2. Single Differential Input for DVB-ASI
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LMH0202
Device Operation
LMH0202 Dual SMPTE 292M / 259M Serial Digital Cable Driver
Physical Dimensions
inches (millimeters) unless otherwise noted
16-Pin TSSOP
Order Number LMH0202MT
NS Package Number MTC16
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the right at any time without notice to change said circuitry and specifications.
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