NSC DS90C383AMTD

DS90C383A/DS90CF383A
+3.3V Programmable LVDS Transmitter 24-Bit Flat Panel
Display (FPD) Link-65 MHz
+3.3V LVDS Transmitter 24-Bit Flat Panel Display (FPD)
Link-65 MHz
1.0 General Description
2.0 Features
The DS90C383A/DS90CF383A transmitter converts 28 bits
of CMOS/TTL data into four LVDS (Low Voltage Differential
Signaling) data streams. A phase-locked transmit clock is
transmitted in parallel with the data streams over a fifth
LVDS link. Every cycle of the transmit clock 28 bits of input
data are sampled and transmitted. At a transmit clock frequency of 65 MHz, 24 bits of RGB data and 3 bits of LCD
timing and control data (FPLINE, FPFRAME, DRDY) are
transmitted at a rate of 455 Mbps per LVDS data channel.
Using a 65 MHz clock, the data throughput is 227 Mbytes/
sec. The DS90C383A transmitter can be programmed for
Rising edge strobe or Falling edge strobe through a dedicated pin. The DS90CF383A is fixed as a Falling edge
strobe transmitter. A Rising edge or Falling edge strobe
transmitter will interoperate with a Falling edge strobe Receiver (DS90CF384) without any translation logic.
This chipset is an ideal means to solve EMI and cable size
problems associated with wide, high speed TTL interfaces.
n 20 to 65 MHz shift clock support
n Rejects > ± 3ns Jitter from VGA chip with less than
225ps output Jitter @65MHz (TJCC)
n Best–in–Class Set & Hold Times on TxINPUTs
n Tx power consumption < 130 mW (typ) @65MHz
Grayscale
n > 50% Less Power Dissipation than BiCMOS
Alternatives
n Tx Power-down mode < 200µW (max)
n ESD rating > 7 kV (HBM), > 500V (EIAJ)
n Supports VGA, SVGA, XGA and Dual Pixel SXGA.
n Narrow bus reduces cable size and cost
n Up to 1.8 Gbps throughput
n Up to 227 Megabytes/sec bandwidth
n 345 mV (typ) swing LVDS devices for low EMI
n PLL requires no external components
n Compatible with TIA/EIA-644 LVDS standard
n Low profile 56-lead TSSOP package
n Improved replacement for:
SN75LVDS83 — DS90C383A
SN75LVDS81 — DS90CF383A
3.0 Block Diagrams
DS90C383A/DS90CF383A
DS100100-1
Order Number DS90C383AMTD or DS90CF383AMTD
See NS Package Number MTD56
TRI-STATE ® is a registered trademark of National Semiconductor Corporation.
© 1999 National Semiconductor Corporation
DS100100
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DS90C383A/DS90CF383A +3.3V Programmable LVDS Transmitter 24-Bit Flat Panel Display (FPD)
Link-65 MHz, +3.3V LVDS Transmitter 24-Bit Flat Panel Display (FPD) Link-65 MHz
July 1998
4.0 Absolute Maximum Ratings (Note
Package Derating:
DS90C383A/DS90CF383A
ESD Rating
(HBM, 1.5 kΩ, 100 pF)
(EIAJ, 0Ω, 200 pF)
1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
12.5 mW/˚C above +25˚C
> 7 kV
> 500V
5.0 Recommended Operating
Conditions
−0.3V to +4V
Supply Voltage (VCC)
CMOS/TTL Input Voltage
−0.3V to (VCC + 0.3V)
LVDS Driver Output Voltage
−0.3V to (VCC + 0.3V)
LVDS Output Short Circuit
Duration
Continuous
Junction Temperature
+150˚C
Storage Temperature
−65˚C to +150˚C
Lead Temperature
(Soldering, 4 sec)
+260˚C
Maximum Package Power Dissipation Capacity @ 25˚C
MTD56 (TSSOP) Package:
DS90C383A/DS90CF383A
1.63 W
Supply Voltage (VCC)
Operating Free Air
Temperature (TA)
Receiver Input Range
Supply Noise Voltage (VCC)
TxCLKIN frequency
Min
3.0
Nom
3.3
Max
3.6
Units
V
−10
0
+25
+70
2.4
100
68
˚C
V
18
mVPP
MHz
Electrical Characteristics
Over recommended operating supply and temperature ranges unless otherwise specified.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
CMOS/TTL DC SPECIFICATIONS
VIH
High Level Input Voltage
2.0
VCC
V
VIL
Low Level Input Voltage
GND
0.8
V
VCL
Input Clamp Voltage
ICL = −18 mA
IIN
Input Current
V
IN
= 0.4V, 2.5V or VCC
V
IN
= GND
−0.79
−1.5
V
+1.8
+10
µA
−10
0
250
345
µA
LVDS DC SPECIFICATIONS
VOD
Differential Output Voltage
∆VOD
Change in VOD between
complimentary output states
VOS
Offset Voltage (Note 4)
∆VOS
Change in VOS between
complimentary output states
IOS
Output Short Circuit Current
VOUT = 0V, RL = 100Ω
IOZ
Output TRI-STATE ® Current
Power Down = 0V,
VOUT = 0V or VCC
RL = 100Ω
1.125
1.25
450
mV
35
mV
1.375
V
35
mV
−3.5
−5
mA
±1
± 10
µA
TRANSMITTER SUPPLY CURRENT
ICCTW
ICCTG
ICCTZ
Transmitter Supply Current
Worst Case
Transmitter Supply Current
16 Grayscale
Transmitter Supply Current
Power Down
RL = 100Ω,
CL = 5 pF,
Worst Case Pattern
(Figures 1, 4)
f = 32.5 MHz
31
43
mA
f = 37.5 MHz
33
45
mA
f = 65 MHz
39
52
mA
RL = 100Ω,
CL = 5 pF,
16 Grayscale Pattern
(Figures 2, 4)
f = 32.5 MHz
23
35
mA
f = 37.5 MHz
28
40
mA
f = 65 MHz
33
45
mA
10
55
µA
Power Down = Low
Driver Outputs in TRI-STATE under
Power Down Mode
Note 1: “Absolute Maximum Ratings” are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the device
should be operated at these limits. The tables of “Electrical Characteristics” specify conditions for device operation.
Note 2: Typical values are given for VCC = 3.3V and T A = +25C.
Note 3: Current into device pins is defined as positive. Current out of device pins is defined as negative. Voltages are referenced to ground unless otherwise specified (except VOD and ∆VOD).
Note 4: VOS previously referred as VCM.
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2
Recommended Transmitter Input Characteristics
Over recommended operating supply and temperature ranges unless otherwise specified
Symbol
Parameter
TCIT
TxCLK IN Transition Time (Figure 5 )
TCIP
TxCLK IN Period (Figure 6 )
TCIH
TCIL
Min
Typ
Max
Units
5
ns
14.7
T
55.6
ns
TxCLK IN High Time (Figure 6 )
0.35T
0.5T
0.65T
ns
TxCLK IN Low Time (Figure 6)
0.35T
0.5T
0.65T
ns
Transmitter Switching Characteristics
Over recommended operating supply and temperature ranges unless otherwise specified
Typ
Max
Units
LLHT
Symbol
LVDS Low-to-High Transition Time (Figure 4 )
Parameter
Min
0.75
1.5
ns
LHLT
LVDS High-to-Low Transition Time (Figure 4 )
0.75
1.5
ns
TPPos0
Transmitter Output Pulse Position for Bit 0 (Figure 11 ) (Note 5)
−0.30
0
0.20
ns
TPPos1
Transmitter Output Pulse Position for Bit 1
1.90
2.20
2.40
ns
TPPos2
Transmitter Output Pulse Position for Bit 2
4.10
4.40
4.60
ns
TPPos3
Transmitter Output Pulse Position for Bit 3
6.30
6.60
6.80
ns
TPPos4
Transmitter Output Pulse Position for Bit 4
8.50
8.80
9.00
ns
TPPos5
Transmitter Output Pulse Position for Bit 5
10.70
11.00
11.20
ns
TPPos6
Transmitter Output Pulse Position for Bit 6
ns
TPPos0
Transmitter Output Pulse Position for Bit 0 (Figure 11 ) (Note 5)
TPPos1
Transmitter Output Pulse Position for Bit 1
TPPos2
Transmitter Output Pulse Position for Bit 2
6.79
7.14
7.49
ns
TPPos3
Transmitter Output Pulse Position for Bit 3
10.36
10.71
11.06
ns
TPPos4
Transmitter Output Pulse Position for Bit 4
13.93
14.28
14.63
ns
TPPos5
Transmitter Output Pulse Position for Bit 5
17.51
17.86
18.21
ns
TPPos6
Transmitter Output Pulse Position for Bit 6
21.08
21.43
21.78
ns
TPPos0
Transmitter Output Pulse Position for Bit 0 (Figure 11 ) (Note 5)
−0.40
0
0.40
ns
TPPos1
Transmitter Output Pulse Position for Bit 1
4.00
4.40
4.80
ns
TPPos2
Transmitter Output Pulse Position for Bit 2
8.40
8.80
9.20
ns
TPPos3
Transmitter Output Pulse Position for Bit 3
12.80
13.20
13.60
ns
TPPos4
Transmitter Output Pulse Position for Bit 4
17.20
17.60
18.00
ns
TPPos5
Transmitter Output Pulse Position for Bit 5
21.60
22.00
22.40
ns
TPPos6
Transmitter Output Pulse Position for Bit 6
26.00
26.40
26.80
ns
TSTC
TxIN Setup to TxCLK IN (Figure 6 )
2.5
THTC
TxIN Hold to TxCLK IN (Figure 6 )
0
TCCD
TxCLK IN to TxCLK OUT Delay (Figure 7 ) TA=25˚C,VCC=3.3V
3
TJCC
Transmitter Jitter Cycle-to-Cycle (Figures 12, 13 ) (Note 6)
f = 65 MHz
f = 40 MHz
f = 32.5
MHz
TxCLK IN to TxCLK OUT Delay (Figure 7 )
12.90
13.20
13.40
−0.35
0
0.35
ns
3.22
3.57
3.92
ns
ns
ns
3
f = 65 MHz
f = 40 MHz
f = 32.5
MHz
5.5
ns
7.0
ns
175
225
ps
240
380
ps
260
400
ps
TPLLS
Transmitter Phase Lock Loop Set (Figure 8 )
10
ms
TPDD
Transmitter Power Down Delay (Figure 10 )
100
ns
Note 5: The Minimum and Maximum Limits are based on statistical analysis of the device performance over process, voltage, and temperature ranges. This parameter is functionality tested only on Automatic Test Equipment (ATE).
Note 6: The Limits are based on statistical analysis of the device performance over process, voltage, and temperature ranges. Output jitter is measured with a cycleto-cycle jitter of 3ns applied to the input clock signal. A jitter event of 3ns, represents worse case jump in the clock edge from most Graphics controller VGA chips
currently available. This parameter is used when calculating system margin (RSKM). See Figures 12, 13 and AN-1059.
3
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6.0 AC Timing Diagrams
DS100100-4
FIGURE 1. “Worst Case” Test Pattern
DS100100-5
FIGURE 2. “16 Grayscale” Test Pattern (Notes 7, 8, 9, 10)
Note 7: The worst case test pattern produces a maximum toggling of digital circuits, LVDS I/O and CMOS/TTL I/O.
Note 8: The 16 grayscale test pattern tests device power consumption for a “typical” LCD display pattern. The test pattern approximates signal switching needed
to produce groups of 16 vertical stripes across the display.
Note 9: Figures 1, 2 show a falling edge data strobe (TxCLK IN/RxCLK OUT).
Note 10: Recommended pin to signal mapping. Customer may choose to define differently.
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6.0 AC Timing Diagrams
(Continued)
DS100100-30
FIGURE 3. DS90C383A/DS90CF383A (Transmitter) LVDS Output Load
DS100100-6
FIGURE 4. DS90C383A/DS90CF383A (Transmitter) LVDS Transition Times
DS100100-8
FIGURE 5. DS90C383A/DS90CF383A (Transmitter) Input Clock Transition Time
DS100100-10
FIGURE 6. DS90C383A/DS90CF383A (Transmitter) Setup/Hold and High/Low Times (Falling Edge Strobe)
DS100100-12
FIGURE 7. DS90C383A/DS90CF383A (Transmitter) Clock In to Clock Out Delay (Falling Edge Strobe)
5
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6.0 AC Timing Diagrams
(Continued)
DS100100-14
FIGURE 8. DS90C383A/DS90CF383A (Transmitter) Phase Lock Loop Set Time
DS100100-17
FIGURE 9. 28 Parallel TTL Data Inputs Mapped to LVDS Outputs
DS100100-18
FIGURE 10. Transmitter Power Down Delay
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6.0 AC Timing Diagrams
(Continued)
DS100100-26
FIGURE 11. Transmitter LVDS Output Pulse Position Measurement
DS100100-27
FIGURE 12. TJCC Test Setup
7
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6.0 AC Timing Diagrams
(Continued)
DS100100-28
FIGURE 13. Timing Diagram of the Input cycle-to-cycle clock jitter
7.0 DS90C383A Pin Description — FPD Link Transmitter
I/O
No.
TxIN
Pin Name
I
28
Description
TxOUT+
O
4
Positive LVDS differentiaI data output.
TxOUT−
O
4
Negative LVDS differential data output.
FPSHIFT IN
I
1
TTL Ievel clock input. The falling edge acts as data strobe. Pin name TxCLK IN.
R_FB
I
1
Programmable strobe select (See Table 1).
TxCLK OUT+
O
1
Positive LVDS differential clock output.
TxCLK OUT−
O
1
Negative LVDS differential clock output.
PWR DOWN
I
1
TTL level input. When asserted (low input) TRI-STATES the outputs, ensuring low current at
power down.
TTL level input. This includes: 8 Red, 8 Green, 8 Blue, and 4 control lines — FPLINE,
FPFRAME and DRDY (also referred to as HSYNC, VSYNC, Data Enable).
VCC
I
3
Power supply pins for TTL inputs.
GND
I
4
Ground pins for TTL inputs.
PLL VCC
I
1
Power supply pin for PLL.
PLL GND
I
2
Ground pins for PLL.
LVDS VCC
I
1
Power supply pin for LVDS outputs.
LVDS GND
I
3
Ground pins for LVDS outputs.
8.0 DS90CF383A Pin Description — FPD Link Transmitter
I/O
No.
TxIN
Pin Name
I
28
TxOUT+
O
4
Positive LVDS differential data output.
TxOUT−
O
4
Negative LVDS differential data output.
FPSHIFT IN
I
1
TTL Ievel clock input. The falling edge acts as data strobe. Pin name TxCLK IN.
TxCLK OUT+
O
1
Positive LVDS differential clock output.
TxCLK OUT−
O
1
Negative LVDS differential clock output.
PWR DOWN
I
1
TTL level input. When asserted (low input) TRI-STATES the outputs, ensuring low current at
power down.
VCC
I
4
Power supply pins for TTL inputs.
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Description
TTL level input. This includes: 8 Red, 8 Green, 8 Blue, and 4 control lines — FPLINE,
FPFRAME and DRDY (also referred to as HSYNC, VSYNC, Data Enable).
8
8.0 DS90CF383A Pin Description — FPD Link Transmitter
Pin Name
GND
I/O
No.
I
4
(Continued)
Description
Ground pins for TTL inputs.
PLL VCC
I
1
Power supply pin for PLL.
PLL GND
I
2
Ground pins for PLL.
LVDS VCC
I
1
Power supply pin for LVDS outputs.
LVDS GND
I
3
Ground pins for LVDS outputs.
9.0 Applications Information
The DS90C383A/DS90CF383A are backward compatible
with the DS90C383/DS90CF383 and are a pin-for-pin replacement. The device (DS90C383A/DS90CF383A) utilizes
a different PLL architecture employing an internal 7X clock
for enhanced pulse position control.
This device (DS90C383A/DS90CF383A) also features reduced variation of the TCCD parameter which is important
for dual pixel applications. (See AN-1084) TCCD variation
has been measured to be less than 250ps at 65MHz under
normal operating conditions.
This device may also be used as a replacement for the
DS90CF583 (5V, 65MHz) and DS90CF581 (5V, 40MHz)
FPD-Link Transmitters with certain considerations/
modifications:
1.
Change 5V power supply to 3.3V. Provide this supply to
the VCC, LVDS VCC and PLL VCC of the transmitter.
2.
The DS90C383A transmitter input and control inputs accept 3.3V TTL/CMOS levels. They are not 5V tolerant.
3.
To implement a falling edge device for the DS90C383A,
the R_FB pin (pin 17) may be tied to ground OR left unconnected (an internal pull-down resistor biases this pin
low). Biasing this pin to Vcc implements a rising edge
device.
10.0 Transmitter Clock Jitter Cycle-to-Cycle
peated at a period of 2µs, which is the period of the input
data (1µs high, 1µs low). At different operating frequencies
the N Cycle is changed to maintain the desired 3ns cycle-tocycle jitter at 2µs period.
Figures 12 and 13 illustrate the timing of the input clock relative to the input data. The input clock (TxCLKin) is intentionally shifted to the left −3ns and +3ns to the right when data
(Txin0-27) is high. This 3ns of cycle-to-cycle clock jitter is re-
9
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11.0 Pin Diagram
DS90C383A
DS90CF383A
DS100100-23
DS100100-24
Application
DS100100-3
TABLE 1. Programmable Transmitter (DS90C383A)
Pin
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Condition
Strobe Status
R_FB
R_FB = VCC
Rising edge strobe
R_FB
R_FB = GND or NC
Falling edge strobe
10
inches (millimeters) unless otherwise noted
56-Lead Molded Thin Shrink Small Outline Package, JEDEC
Order Number DS90C383AMTD, DS90CF383AMTD
NS Package Number MTD56
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DS90C383A/DS90CF383A +3.3V Programmable LVDS Transmitter 24-Bit Flat Panel Display (FPD)
Link-65 MHz, +3.3V LVDS Transmitter 24-Bit Flat Panel Display (FPD) Link-65 MHz
12.0 Physical Dimensions