Fairchild FIN1047MTC 3.3v lvds 4-bit flow-through high speed differential driver Datasheet

Revised August 2003
FIN1047
3.3V LVDS 4-Bit Flow-Through
High Speed Differential Driver
General Description
Features
This quad driver is designed for high speed interconnects
utilizing Low Voltage Differential Signaling (LVDS) technology. The driver translates LVTTL signal levels to LVDS levels with a typical differential output swing of 350mV which
provides low EMI at ultra low power dissipation even at
high frequencies. This device is ideal for high speed transfer of clock and data.
■ Greater than 400Mbs data rate
The FIN1047 can be paired with its companion receiver,
the FIN1048, or any other LVDS receiver.
■ Power-Off protection
■ Flow-through pinout simplifies PCB layout
■ 3.3V power supply operation
■ 0.4 ns maximum differential pulse skew
■ 1.7 ns maximum propagation delay
■ Low power dissipation
■ Meets or exceeds the TIA/EIA-644 LVDS standard
■ Pin compatible with equivalent RS-422 and LVPECL
devices
■ 16-Lead SOIC and TSSOP packages save space
Ordering Code:
Order Number
Package Number
FIN1047M
M16A
FIN1047MTC
MTC16
Package Description
16-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-012, 0.150" Narrow
16-Lead Thin Shrink Small Outline Package (TSSOP), JEDEC MO-153, 4.4mm Wide
Devices also available in Tape and Reel. Specify by appending the suffix letter “X” to the ordering code.
Connection Diagram
Pin Descriptions
Pin Name
Description
DIN1, DIN2, DIN3, DIN4
LVTTL Data Inputs
DOUT1+, DOUT2+, DOUT3+, DOUT4+ Non-Inverting
Driver Outputs
DOUT1−, DOUT2−, DOUT3−, DOUT4− Inverting
Driver Outputs
EN
Driver Enable Pin
EN
Inverting Driver
Enable Pin
VCC
Power Supply
GND
Ground
Truth Table
Inputs
Outputs
EN
EN
DIN
DOUT+
H
L or OPEN
H
H
L
H
L or OPEN
L
L
H
H
L or OPEN
OPEN
L
H
X
H
X
Z
Z
L or OPEN
X
X
Z
Z
H = HIGH Logic Level
X = Don’t Care
DOUT−
L = LOW Logic Level
Z = High Impedance
© 2003 Fairchild Semiconductor Corporation
DS500589
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FIN1047 3.3V LVDS 4-Bit Flow-Through High Speed Differential Driver
June 2001
FIN1047
Absolute Maximum Ratings(Note 1)
Recommended Operating
Conditions
−0.5V to +4.6V
Supply Voltage (VCC)
DC Input Voltage (VIN)
−0.5V to +6V
DC Input Voltage (VOUT)
−0.5V to 4.6V
Driver Short Circuit Current (IOSD)
Storage Temperature Range (TSTG)
Supply Voltage (VCC)
Continuous
150°C
Lead Temperature (TL)
260°C
Note 1: The “Absolute Maximum Ratings”: are those values beyond which
damage to the device may occur. The databook specifications should be
met, without exception, to ensure that the system design is reliable over its
power supply, temperature and output/input loading variables. Fairchild
does not recommend operation of circuits outside databook specification.
(Soldering, 10 seconds)
ESD (Human Body Model)
≥ 9000V
ESD (Machine Model)
≥ 1200V
0 to VCC
−40°C to +85°C
Operating Temperature (TA)
−65°C to +150°C
Max Junction Temperature (TJ)
3.0V to 3.6V
Input Voltage (VIN)
DC Electrical Characteristics
Over supply voltage and operating temperature ranges, unless otherwise specified
Symbol
Parameter
VOD
Output Differential Voltage
∆VOD
VOD Magnitude Change from
Test Conditions
Differential LOW-to-HIGH
RL = 100Ω, Driver Enabled,
VOS
Offset Voltage
See Figure 1
∆VOS
Offset Magnitude Change from
Min
Typ
Max
(Note 2)
250
340
1.125
Differential LOW-to-HIGH
Units
450
mV
1.4
25
mV
1.25
1.375
V
1.2
25
mV
1.4
1.6
VOH
HIGH Output Voltage
VIN = VCC
VOL
LOW Output Voltage
VIN = 0V
0.9
IOFF
Power Off Output Current
VCC = 0V, VOUT = 0V or 3.6V
−20
IOS
Short Circuit Output Current
VOUT = 0V, Driver Enabled
VIH
Input HIGH Voltage
VIL
Input LOW Voltage (Note 3)
IIN
Input Current
VIN = 0V or VCC
−20
20
µA
IOZ
Disabled Output Leakage Current
VOUT = 0V or 4.6V
−20
20
µA
II(OFF)
Power-Off Input Current
VCC = 0V, VIN = 0V or 3.6V
−20
20
µA
VIK
Input Clamp Voltage
IIK = −18 mA
−1.5
ICC
Power Supply Current
No Load, VIN = 0V or VCC, Driver Enabled
Output Power Up/Power Down
High Z Leakage Current
−6
−6
V
GND
0.8
V
−0.7
5
V
8
1.7
4
16
22
−20
Note 3: For transient conditions when t ≤ 5ns and IIN ≤ −100 mA, VILmin = −1.0V.
2
mA
VCC + 1.0
RL = 100 Ω, VIN = 0V or VCC, Driver Enabled
VCC = 0V or 1.5V
µA
2.0
RL = 100 Ω, Driver Disabled
Note 2: All typical values are at TA = 25°C and with VCC = 3.3V.
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−3.5
V
V
20
−3
VOD = 0V, Driver Enabled
IPU/PD
1.05
20
mA
µA
Over supply voltage and operating temperature ranges, unless otherwise specified
Symbol
tPLHD
Parameter
Test Conditions
Differential Propagation Delay
LOW-to-HIGH
tPHLD
Differential Propagation Delay
HIGH-to-LOW
Min
Typ
Max
(Note 4)
Units
0.6
1.1
1.7
ns
0.6
1.2
1.7
ns
tTLHD
Differential Output Rise Time (20% to 80%)
RL = 100 Ω, CL = 10 pF,
0.4
1.2
ns
tTHLD
Differential Output Fall Time (80% to 20%)
See Figure 2 (Note 8), and Figure 3
0.4
1.2
ns
0.4
ns
0.3
ns
tSK(P)
Pulse Skew |tPLH - tPHL|
tSK(LH)
Channel-to-Channel Skew
tSK(HL)
(Note 5)
tSK(PP)
Part-to-Part Skew (Note 6)
fMAX
Maximum Frequency (Note 7)
tZHD
Differential Output Enable Time from Z to HIGH
1.7
5.0
ns
tZLD
Differential Output Enable Time from Z to LOW RL = 100Ω, CL = 10 pF,
1.7
5.0
ns
tHZD
Differential Output Disable Time from HIGH to Z See Figure 4 (Note 8), and Figure 5
2.7
5.0
ns
tLZD
Differential Output Disable Time from LOW to Z
2.7
5.0
ns
CIN
Input Capacitance
4.2
pF
COUT
Output Capacitance
5.2
pF
0.05
1.0
RL = 100Ω, See Figure 6 (Note 8)
200
250
ns
MHz
Note 4: All typical values are at TA = 25°C and with VCC = 3.3V.
Note 5: tSK(LH), tSK(HL) is the skew between specified outputs of a single device when the outputs have identical loads and are switching in the same direction.
Note 6: tSK(PP) is the magnitude of the difference in propagation delay times between any specified terminals of two devices switching in the same direction
(either LOW-to-HIGH or HIGH-to-LOW) when both devices operate with the same supply voltage, same temperature, and have identical test circuits.
Note 7: fMAX criteria: Input tR = tF < 1ns, 0V to 3V, 50% Duty Cycle; Output VOD > 250 mv, 45% to 55% Duty Cycle; all switching in phase channels.
Note 8: Test Circuits in Figures 2, 4, 6 are simplified representations of test fixture and DUT loading.
3
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FIN1047
AC Electrical Characteristics
FIN1047
Note A: All input pulses have frequency = 10 MHz, tR or tF = 1 ns
Note B: C L includes all fixture and instrumentation capacitance
FIGURE 1. Differential Driver DC Test Circuit
FIGURE 2. Differential Driver Propagation Delay and
Transition Time Test Circuit
Note B: All input pulses have the frequency = 10 MHz, tR or tF = 1 ns
Note A: C L includes all fixture and instrumentation capacitance
FIGURE 3. AC Waveforms
FIGURE 4. Differential Driver Enable and
Disable Test Circuit
FIGURE 5. Enable and Disable AC Waveforms
FIGURE 6. fMAX Test Circuit
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FIN1047
DC / AC Typical Performance Curves
FIGURE 7. Output High Voltage vs.
Power Supply Voltage
FIGURE 8. Output Low Voltage vs.
Power Supply Voltage
FIGURE 9. Output Short Circuit Current vs.
Power Supply Voltage
FIGURE 10. Differential Output Voltage vs.
Power Supply Voltage
FIGURE 11. Differential Output Voltage vs.
Load Resistor
FIGURE 12. Offset Voltage vs.
Power Supply Voltage
5
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FIN1047
DC / AC Typical Performance Curves
(Continued)
FIGURE 13. Power Supply Current vs.
Frequency
FIGURE 14. Power Supply Current vs.
Power Supply Voltage
FIGURE 15. Power Supply Current vs.
Ambient Temperature
FIGURE 16. Differential Propagation Delay vs.
Power Supply Voltage
FIGURE 17. Differential Propagation Delay vs.
Ambient Temperature
FIGURE 18. Differential Pulse Skew (tPLH - tPHL) vs.
Power Supply Voltage
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FIGURE 19. Differential Pulse Skew (tPLH - tPHL) vs.
Ambient Temperature
FIN1047
DC / AC Typical Performance Curves
(Continued)
FIGURE 20. Transition Time vs.
Power Supply Voltage
FIGURE 21. Transition Time vs.
Ambient Temperature
7
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FIN1047
Physical Dimensions inches (millimeters) unless otherwise noted
16-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-012, 0.150" Narrow
Package Number M16A
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FIN1047 3.3V LVDS 4-Bit Flow-Through High Speed Differential Driver
Physical Dimensions inches (millimeters) unless otherwise noted (Continued)
16-Lead Thin Shrink Small Outline Package (TSSOP), JEDEC MO-153, 4.4mm Wide
Package Number MTC16
Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and
Fairchild reserves the right at any time without notice to change said circuitry and specifications.
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FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD
SEMICONDUCTOR CORPORATION. As used herein:
2. A critical component in any component of a life support
device or system whose failure to perform can be reasonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the
body, or (b) support or sustain life, and (c) whose failure
to perform when properly used in accordance with
instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the
user.
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