NSC FPD33584

FPD33584
Low Power, Low EMI, TFT-LCD Column Driver with
RSDS Inputs, 64 Grayshades, and 384 Outputs for
XGA/SXGA Applications
General Description
Features
The FPD33584 Column Driver is a direct drive, 64 gray level,
384 output, TFT-LCD column driver with an RSDS™ data
interface. It provides the capability to display 262,144 colors
(18-bit color) with a large dynamic output range for twisted
nematic applications. When used in a bank with other
FPD33584 column drivers, the FPD33584 can support XGA
(8 drivers) or SXGA (10 drivers) applications. Output voltages are gamma corrected to provide a direct mapping
between digital video and LCD panel brightness. The 85MHz
operating frequency allows the FPD33584 to meet the requirement of high refresh rate applications (i.e. XGA monitors with a 75Hz refresh rate).
n RSDS (Reduced Swing Differential Signaling) data bus
for low power, reduced EMI and small PCB foot print
n 85MHz maximum operating frequency at VDD1=3.0V
(70MHz at VDD1=2.7V)
n Pin compatible with Samsung S6C0666
n Ideal for XGA and SXGA applications
n Supports notebook and monitor applications
n Smart Charge Conservation for low power consumption
n 64 Gray levels per color (18-bit color)
n Supports both Dot and N-Line inversion
n Four externally programmable gamma curves
n Low offset, High voltage outputs for high contrast in a
large range of display panel applications
n Optional, high current, repair amplifiers
An RSDS (Reduced Swing Differential Signaling) interface is
used between the timing controller and the column driver to
minimize EMI and reduce power.
System Diagram
20043201
© 2003 National Semiconductor Corporation
DS200432
www.national.com
FPD33584 Low Power, Low EMI, TFT-LCD Column Driver with RSDS Inputs, 64 Grayshades, and
384 Outputs for XGA/SXGA Applications
January 2003
FPD33584
Absolute Maximum Ratings
Analog Supply, (VDD2) (Note 2)
Logic Supply, (VDD1) (Note 2)
Storage Temperature Range, (TS)
(Note 1)
−0.3V to +11.5V
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 devices should be operated at these limits. The table of “Electrical
Characteristics” specifies conditions of device operation.
−0.3V to +5.0V
Low-Polarity RDAC Reference
Voltages, (VGMA6 to VGMA10)
(Note 2)
−0.3V to 0.5VDD2
High-Polarity RDAC Reference
Voltages, (VGMA1 to VGMA5)
(Note 2)
0.5VDD2 − 1.0V to
VDD2 + 0.3V
RDAC Current (All Gamma
Voltage Taps), (IGMA to IGMA10)
−2.5mA to 2.5mA
Input Voltage (Digital Logic), (VIN)
(Note 2)
−0.3V to VDD1 +
0.3V
Output Voltage, (VOUT) (Note 2)
−0.3V to VDD2 +
0.3V
Output Current (Analog), (IOUT)
−7mA to +7mA
−55˚C to +125˚C
Note 2: Absolute voltages referenced to VSS1 = VSS2 = 0.0V.
Recommended Operating
Conditions
Min
Typ
Max
Units
Logic Supply Voltage
(VDD1)
2.7
3.3
3.6
V
Supply Voltage (VDD2)
7.5
10.5
V
+70
˚C
Operating Temperature
(TA)
−10
+25
DC Electrical Characteristics
Digital Electrical Characteristics
Symbol
Parameter
Conditions
Min
Typ
Max
Units
VIH
Logic Input High Voltage
VIL
Logic Input Low Voltage
VOH
Logic Output High Voltage
IOH = −0.5mA
VOL
Logic Output Low Voltage
IOL = 0.5mA
IDD1
Logic Current
(Note 3)
IIH
Input Leakage
VDD1 = 3.6V, VIN = 3.6V
-1
1
µA
IIL
Input Leakage
VDD1 = 3.6V, VIN = 0V
-1
1
µA
CIN
Input Capacitance
All logic pins
0.7 VDD1
V
0.3 VDD1
VDD1 −
0.5
V
V
8.0
0.5
V
12.0
mA
2
pF
Note 3: CLK frequency = 67MHz, VDD1 = 3.3V, VSS1 = VSS2 = 0.0V, line time = 18µs, data = all 1’s for 4 lines followed by all 0’s for 4 lines.
RSDS Characteristics
Symbol
Parameter
Conditions
VIHRSDS
RSDS High Input Voltage
VCMRSDS = 1.2V (Note 4) see
Figure 1
VILRSDS
RSDS Low Input Voltage
VCMRSDS = 1.2V (Note 4) see
Figure 1
VCMRSDS
RSDS Common Mode Input
Voltage Range
VIHRSDS = +100mV, VILRSDS =
−100mV (Note 5) see Figure 1
IDL
RSDS Input Leakage Current
DxxP, DxxN, CLKP, CLKN
Note 4: VCMRSDS = (VCLKP + VCLKN)/2 or (VDxxP + VDxxN)/2.
Note 5: VIHRSDS and VILRSDS are referenced to VCMRRSDS
www.national.com
2
Min
Typ
100
200
−200
Max
Units
mV
−100
mV
VSS1 +
0.1
VDD1 −
1.3
V
−10
10
µA
FPD33584
20043202
FIGURE 1. RSDS Signal Definition
Analog Electrical Characteristics
Symbol
Parameter
Conditions
IDD2
Supply Current Consumption
(Note 6)
VGMA1
Upper RDAC High Side Input
(Note 7)
VGMA5
Upper RDAC Low Side Input
(Note 7)
VGMA6
Lower RDAC High Side Input
(Note 7)
VGMA10
Lower RDAC Low Side Input
(Note 7)
CLOAD
Output Capacitive Load
VOUT
Output Voltage Range
RDAC
RDAC References (VGMA1 to
VGMA5 and VGMA6 to VGMA10)
each
Vpperr
Output Peak to Peak Error (gray
levels 0 through 58)
VGMA1 = VDD2 − TBDV
VGMA10 = VSS2 + TBDV
(Note 8)
Output Peak to Peak Error (gray
levels 59 through 63)
Vparterr
Output Part to Part Error
(Note 9)
IOUT RP
Repair Buffer Output Current
(Note 10)
Min
Typ
Max
Units
5.0
12.0
mA
VDD2/2 +
0.2
VDD2 −
0.2
V
VDD2/2 +
0.2
VDD2 −
0.2
V
0.2
VDD2/2 −
0.2
V
0.2
VDD2/2 −
0.2
V
30
150
pF
VSS2 +
0.2
VDD2 −
0.2
V
15.0
18.0
kΩ
±3
± 12
mV
±5
± 25
mV
12.0
±5
±2
±3
mV
mA
Note 6: VDD2= 10V, VDD1 = 3.3V, fCLK = 67MHz, line time = 18µsec, data = maximum output swing (GMA1 to GMA10), [TIME1, TIME0] = [0,1] (charge sharing of
32 clock cycles
Note 7: The following relationship must be maintained between the reference voltages: VDD2 > VGMA1 > VGMA2 > VGMA3 > VGMA4 > VGMA5 > VGMA6 > VGMA7
> VGMA8 > VGMA9 > VGMA10 > VSS2
Note 8: Vpperr is meant to reflect the error in peak-to-peak output voltage for each gray level whent the output swings from the high value VHxx to the low value
VLxx. This parameter applies to every output on the die. The typical value represents one standard deviation from ideal based on tester data. The maximum value
is a constraint of the test environment, not the performance of the part.
Note 9: Vparterr is meant to guarantee the part-to-part output variation. The average of all outputs at gray level 32 is compared to a nominal gray level 32 value. The
difference is Vparterr
Note 10: Current into device pins is defined as positive. Current out of device pins is defined as negative. |VOUT − VIN| > 500mV.
3
www.national.com
FPD33584
AC Electrical Characteristics
Digital AC Characteristics
Symbol
Parameter
Conditions
Min
Typ
Max
Units
PWCLK
Clock Period
VDD1 = 2.7 to 3.0V
14
PWCLK
Clock Period
VDD1 = 3.0 to 3.6V
11.7
PWCLK(L)
Low Clock Pulse Width
40%
60%
PWCLK
PWCLK(H)
High Clock Pulse Width
40%
60%
PWCLK
ns
ns
tsetup1
RSDS Data Setup Time
2
ns
thold1
RSDS Data Hold Time
0
ns
tsetup2
ENIOx Setup Time
2
ns
thold2
ENIOx Hold Time
tPLH1
Start Pulse Fall Delay
PWDIO
ENIOx Pulse Width
4
ns
CLINE = 15 pF
8
ns
1
2
PWCLK
5 TCLK
5µs
PWCLK1
LOAD Pulse Width
tLDT
Last Clock to LOAD Delay
1
PWCLK
tDENSU
LOAD to First ENIO Setup
2
PWCLK
tPOL–CLK1
POL–CLK1 Time
14
ns
Analog AC Characteristics
Supplies: VSS1 = VSS2 = 0.0V, VDD1 = 3.3V, VDD2 = +10.0V.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
6
µs
10
µs
tsettle 90%
Output Settling Time to 90% of
Final Value
Figure 2 (Note 11)
t6-bit accy
Output Settling Time to 6-bit
accuracy
(Note 11)
tRP 90%
Repair Line Output Settling Time to CLOAD = 150 pF,
90% of Final Value
(Note 11)
6
µs
tRP 6-bit accy
Repair Line Output Settling Time to CLOAD = 150 pF,
6-bit accuracy
(Note 11)
10
µs
Note 11: VGMA1 = 9.8V, VGMA10 = 0.2V, VGMA5 = 5.2V, VGMA6 = 4.8V, [TIME0, TIME1] = [0,1].
20043211
FIGURE 2. Test Circuit for Output Settling Time Measurements
www.national.com
4
Timing Diagrams
20043203
FPD33584
5
www.national.com
FPD33584
Timing Diagrams
(Continued)
20043204
20043205
20043217
www.national.com
6
FPD33584
Block Diagram
20043206
Functional Description
GENERAL OVERVIEW
The FPD33584 is a low power, low EMI, 384 output column
driver with 64 gray level capability (6-bit). It provides direct
drive for TFT-LCD displays, eliminating the need for Vcom
modulation. Direct drive significantly reduces system power
consumption and also reduces component count while providing superior image quality and cross-talk margin. The
FPD33584 utilizes National’s Charge Conservation Technology that recovers energy stored in the capacitance of the
column lines to reduce power consumption further.
The FPD33584 is designed for use in systems using dot
inversion as the method of polarity inversion. Column inversion and N-line inversion are also supported. Other modes of
polarity inversion including line inversion and frame inversion
are not supported.
Digital video data inputs to the FPD33584 are received via a
low power, low EMI Reduced Swing Differential Signaling
(RSDS) bus. The RSDS digital video commands one of 64
gray level voltages on each output. Output voltages are
driven with individual high drive, low offset operational amplifiers. Data loading and line buffering is accomplished by
means of an internal, bi-directional shift register.
GAMMA CORRECTION
The FPD33584 is designed to offer compatibility with a wide
range of panel gamma characteristics. The output voltage
levels corresponding to each of the 64 gray level commands
can be externally adjusted to match the desired gamma
characteristics of the display by means of two internal
resistor-string DACs (RDACs). One RDAC provides the
high-polarity output voltages (voltages higher than Vcom) and
the other provides the low-polarity output voltages (voltages
lower than Vcom).
The FPD33584 is available with several R-DAC resistance
curve options, all of which have been carefully designed to
accurately match the natural, inverse gamma of a twisted
7
www.national.com
FPD33584
Functional Description
one of the charge share times defined by TIME0 and TIME1
will optimize the performance and power savings in the
panel. Generally, the average panel should set charge sharing at either 32 RSDS clocks or 64 RSDS clocks, depending
on the data rate and the panel load. Panels with much larger
RC loads may need to increase the charge share time to get
the maximum benefit and panels with a smaller load can
realize power savings with a shorter charge share time.
Please contact National Semiconductor if you need further
assistance in selecting a charge share time.
(Continued)
nematic (TN) display with a 2.2 gamma transfer characteristic. Additional, custom gamma curves can be requested
through your National Semiconductor representative. A typical TN display, when operated with the FPD33584 drivers
will produce a luminance with grayscale characteristic typical
of CRT monitors. The resistor values for all R-DACs are
shown in Figure 22. The individual R-DAC characteristics
can be found in:
• Gamma A — Figure 4, Figure 5, and Figure 6
• Gamma B — Figure 7, Figure 8, and Figure 9
• Gamma C — Figure 10, Figure 11, and Figure 12
• Gamma D — Figure 13, Figure 14, and Figure 15
• Gamma F — Figure 16, Figure 17, and Figure 18
• Gamma G — Figure 19, Figure 20, and Figure 21
Most applications will only need to provide references for
each of the two ends of the two R-DACs (GMA1, GMA5,
GMA6, and GMA10). Six additional, intemediate R-DAC tap
points are available for further customization.
20043216
FIGURE 3. FPD33584 Charge Share Timing
CHARGE CONSERVATION TECHNOLOGY
National Semiconductor’s proprietary charge conservation
technology significantly reduces power consumption.
Charge conservation works by briefly switching all of the
columns to a common node at the start of each line. This has
the effect of redistributing the charge stored in the capacitance of the panel columns. Because half the columns are at
voltages more positive than Vcom and half are more negative, this redistribution of charge or “charge-sharing” has the
effect of pulling all of the columns to a neutral voltage near
the middle of the driver’s dynamic range. Thus, the voltages
on all the columns are driven approximately halfway toward
their next value with no power expended. This dramatically
reduces panel power dissipation (up to a theoretical limit of
50%) compared to conventional drivers which must drive
each column through the entire voltage swing every time
polarity is reversed.
’Smart’ charge sharing is used to further optimize this feature. Data inversion is monitored and charge shared only
across data ranges (when output polarity changes between
adjacent lines). This is useful during n-line inversion when
polarity changes do not occur at every line transition.
RSDS DATA CHANNEL
The RSDS data bus is comprised of nine channels and a
common clock. Each channel consists of a two wire differential pair. The nine channels carry digital video data organized as three busses of three channels. Each three channel
bus corresponds on one of the three video colors, red, green
and blue. The three video busses are comprised of a most,
middle and least significant bit. The six bit video word is
carried on the three wires of each video bus in two consecutive half words. The even fields of the word are transmittedreceived on a first clock and are followed by the odd fields on
the following clock transition. Clocking is dual edge and the
clock signal is also carried on a two wire, differential pair.
OPTIONAL REPAIR AMPLIFIERS
The FPD33584 provides two general purpose, unity gain
output buffers, one located at each end of the input bank of
the die. These buffers may be used to repair an open in a
column line. The drive signal from the output of the faulted
line can be stitched to the input of the repair buffer during the
repair process. The output of the repair buffer is then routed
to the other side of the column line making it possible to
maintain fast rise and fall times on both ends of the afflicted
column line.
TABLE 1. Charge Sharing Definition
TIME0 TIME1 Charge Share Time
0
0
16 RSDS CLKs (approx. 250ns @ 65MHz)
0
1
32 RSDS CLKs (approx. 500ns @ 65MHz)
1
0
64 RSDS CLKs (approx. 1µs @ 65MHz)
1
1
128 RSDS CLKs (approx. 2µs @ 65MHz)
PIN DESCRIPTIONS
The pin order configuration for the FPD33584 is shown in
Figure 23
CLKP and CLKN — Data Clock (input)
Differential clock input for RSDS data loading.
D00P–D22N — RSDS Data Bus (input)
D0xP–D0xN — Data for OUTPUTS 1,4,7...382 (red)
D1xP–D1xN — Data for OUTPUTS 2,5,8...383 (green)
D2xP–D2xN — Data for OUTPUTS 3,6,9...384 (blue)
Where x = 0 (LSB), 1 or 2 (MSB).
CLK1 — Data Load (input)
The rising edge of CLK1 copies the digital video buffered by
the shift register into a second latch for conversion to analog.
The falling edge of CLK1 begins charge sharing.
POL — Polarity (input)
As shown in Figure 3, charge sharing begins at the falling
edge of CLK1 and continues for the number or RSDS clock
cycles shown in Table 1. For more information on National’s
proprietary Smart Charge Sharing technology, please see
application note AN1235 Using Smart Charge Sharing to
Reduce Power and Boost Column Driver Performance,
which is available on the National Semiconductor website or
through your National Semiconductor representative.
The amount of charge share time is determined by 2 pins:
TIME0 and TIME1. Both TIME0 and TIME1 pins default to a
low state, so if both pins are left floating, the charge share
time will be 16 RSDS clock cycles. For most applications,
www.national.com
8
RPI1/ RPI2 — Repair Amp Input 1 and 2 (input)
(Continued)
The input signal for the repair line buffers. These buffers are
optional and when not used, the input should be tied to
ground. RPI1 and RPI2 can be tied to ground with a connection in the package, eliminating the need to connect them to
the PCB.
RPO1/ RPO2 — Repair Amp Output 1 and 2 (output)
When POL is low, odd numbered outputs (1, 3, 5, . . . 383)
are controlled by VGMA6 through VGMA10 and even numbered outputs are controlled by VGMA1 through VGMA5.
When POL is high, odd numbered outputs are controlled by
VGMA1 through VGMA5 and even numbered outputs are
controlled by VGMA6 through VGMA10. The POL signal for
line #n is sampled at the rising edge of CLK1 on line #n−1.
The output of the repair line buffers. These outputs are
current buffered copies of their respective inputs. When not
in use, RPO1 and RPO2 can be left unconnected.
DIO1/DIO2 — Data Loading Enable 1 and 2 (I/O)
The DIO1 and DIO2 pins allow several FPD33584 column
drivers to be daisy chained together. The start pulse (SP or
STH) from the timing controller is connected to the input
DIOx pin on the first column driver in the chain. The input
DIO for the remaining column drivers in the chain are connected to the output DIO from the preceding column driver.
The SHL pin controls whether DIO1 or DIO2 is configured as
the input.
If SHL is high, then the DIO1 pin is configured as an input
and the DIO2 pin as an output. If SHL is low, the DIO2 pin is
configured as an input and the DIO1 pin as an output.
TIME0/ TIME1 — Charge Share Time Select Pins (input)
The TIME0 and TIME1 pins define the length of charge
share time. Table 1 lists the charge share time options
defined by TIME0 and TIME1. Both of these pins have
internal pull-down resistors and default to a logic low state.
They can also be tied high in the package, eliminating the
need to connect them to the PCB.
VGMA1–VGMA10 — RDAC References (input)
The reference voltages to the upper and lower RDACs used
to control the inverse gamma transfer function of the driver.
Option - Any or all of the inputs VGMA2 through VGMA4 and
VGMA7 through VGMA9 can be left undriven (floating).
VDD1 — Digital Voltage Supply (power)
Positive supply voltage for the digital logic functions of the
driver. Nominally 3.3V.
VDD2 — Analog Voltage Supply (power)
Positive supply voltage for the analog functions of the driver.
Nominally between 8.0 and 10.0V
VSS1 — Digital Ground (power)
Digital ground reference voltage. Typically tied to VSS2 on
the PCB.
VSS2 — Analog Ground (power)
Analog ground reference voltage. Typically tied to VSS1 on
the PCB
The input DIOx pulse is latched on the falling edge of CLKP
DATPOL — Digital Data Invert (input)
When DATPOL is high, RSDS data is inverted. The DATPOL
pin can be tied either high or low through connection to a
neighboring pin on a custom package eliminating the need to
connect the pin to the PCB.
SHL — Data Shift Direction (input)
The SHL pin controls the data load direction. When SHL is
high, the data is loaded from output 1 to output 384, DIO1 is
configured as an input, and DIO2 is configured as an output.
When SHL is low, the data is loaded from output 384 to
output 1, DIO2 is configured as an input, and DIO1 is configured as an output. The SHL pin can be tied off in the
custom package, eliminating the need to connect it to the
PCB.
9
www.national.com
FPD33584
Functional Description
FPD33584
Functional Description
(Continued)
20043209
20043210
FIGURE 4. FPD33584A R-DAC Configuration
www.national.com
10
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma A)
Data
Output Voltage (gamma A)
00H
VL0
VGMA10
20H
VL32
VGMA8
01H
VL1
VGMA9−(VGMA9−VGMA10)x
4049/5879
21H
VL33
VGMA7−(VGMA7−VGMA8)x
2588/2692
02H
VL2
VGMA9−(VGMA9−VGMA10)x
3022/5879
22H
VL34
VGMA7−(VGMA7−VGMA8)x
2484/2692
03H
VL3
VGMA9−(VGMA9−VGMA10)x
2293/5879
23H
VL35
VGMA7−(VGMA7−VGMA8)x
2380/2692
04H
VL4
VGMA9−(VGMA9−VGMA10)x
1668/5879
24H
VL36
VGMA7−(VGMA7−VGMA8)x
2276/2692
05H
VL5
VGMA9−(VGMA9−VGMA10)x
1147/5879
25H
VL37
VGMA7−(VGMA7−VGMA8)x
2172/2692
06H
VL6
VGMA9−(VGMA9−VGMA10)x
730/5879
26H
VL38
VGMA7−(VGMA7−VGMA8)x
2068/2692
07H
VL7
VGMA9−(VGMA9−VGMA10)x
313/5879
27H
VL39
VGMA7−(VGMA7−VGMA8)x
1964/2692
08H
VL8
GMA9
28H
VL40
VGMA7−(VGMA7−VGMA8)x
1860/2692
09H
VL9
VGMA8−(VGMA8−VGMA9)x
2825/3138
29H
VL41
VGMA7−(VGMA7−VGMA8)x
1756/2692
0AH
VL10
VGMA8−(VGMA8−VGMA9)x
2617/3138
2AH
VL42
VGMA7−(VGMA7−VGMA8)x
1652/2692
0BH
VL11
VGMA8−(VGMA8−VGMA9)x
2409/3138
2BH
VL43
VGMA7−(VGMA7−VGMA8)x
1548/2692
0CH
VL12
VGMA8−(VGMA8−VGMA9)x
2260/3138
2CH
VL44
VGMA7−(VGMA7−VGMA8)x
1429/2692
0DH
VL13
VGMA8−(VGMA8−VGMA9)x
2111/3138
2DH
VL45
VGMA7−(VGMA7−VGMA8)x
1310/2692
0EH
VL14
VGMA8−(VGMA8−VGMA9)x
1977/3138
2EH
VL46
VGMA7−(VGMA7−VGMA8)x
1191/2692
0FH
VL15
VGMA8−(VGMA8−VGMA9)x
1843/3138
2FH
VL47
VGMA7−(VGMA7−VGMA8)x
1072/2692
10H
VL16
VGMA8−(VGMA8−VGMA9)x
1724/3138
30H
VL48
VGMA7−(VGMA7−VGMA8)x
953/2692
11H
VL17
VGMA8−(VGMA8−VGMA9)x
1605/3138
31H
VL49
VGMA7−(VGMA7−VGMA8)x
834/2692
12H
VL18
VGMA8−(VGMA8−VGMA9)x
1486/3138
32H
VL50
VGMA7−(VGMA7−VGMA8)x
715/2692
13H
VL19
VGMA8−(VGMA8−VGMA9)x
1367/3138
33H
VL51
VGMA7−(VGMA7−VGMA8)x
581/2692
14H
VL20
VGMA8−(VGMA8−VGMA9)x
1248/3138
34H
VL52
VGMA7−(VGMA7−VGMA8)x
447/2692
15H
VL21
VGMA8−(VGMA8−VGMA9)x
1144/3138
35H
VL53
VGMA7−(VGMA7−VGMA8)x
298/2692
16H
VL22
VGMA8−(VGMA8−VGMA9)x
1040/3138
36H
VL54
VGMA7−(VGMA7−VGMA8)x
149/2692
17H
VL23
VGMA8−(VGMA8−VGMA9)x
936/3138
37H
VL55
VGMA7
18H
VL24
VGMA8−(VGMA8−VGMA9)x
832/3138
38H
VL56
VGMA6−(VGMA6−VGMA7)x
3140/3289
19H
VL25
VGMA8−(VGMA8−VGMA9)x
728/3138
39H
VL57
VGMA6−(VGMA6−VGMA7)x
2947/3289
1AH
VL26
VGMA8−(VGMA8−VGMA9)x
624/3138
3AH
VL58
VGMA6−(VGMA6−VGMA7)x
2724/3289
1BH
VL27
VGMA8−(VGMA8−VGMA9)x
520/3138
3BH
VL59
VGMA6−(VGMA6−VGMA7)x
2471/3289
1CH
VL28
VGMA8−(VGMA8−VGMA9)x
416/3138
3CH
VL60
VGMA6−(VGMA6−VGMA7)x
2158/3289
1DH
VL29
VGMA8−(VGMA8−VGMA9)x
312/3138
3DH
VL61
VGMA6−(VGMA6−VGMA7)x
1637/3289
1EH
VL30
VGMA8−(VGMA8−VGMA9)x
208/3138
3EH
VL62
VGMA6−(VGMA6−VGMA7)x
923/3289
1FH
VL31
VGMA8−(VGMA8−VGMA9)x
104/3138
3FH
VL63
VGMA6
FIGURE 5. FPD33584A Lower Gamma Voltages
11
www.national.com
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma A)
Data
Output Voltage (gamma A)
00H
VH0
VGMA1
20H
VH32
VGMA3
01H
VH1
VGMA2+(VGMA1−VGMA2)x
4049/5879
21H
VH33
VGMA4+(VGMA3−VGMA4)x
2588/2692
02H
VH2
VGMA2+(VGMA1−VGMA2)x
3022/5879
22H
VH34
VGMA4+(VGMA3−VGMA4)x
2484/2692
03H
VH3
VGMA2+(VGMA1−VGMA2)x
2293/5879
23H
VH35
VGMA4+(VGMA3−VGMA4)x
2380/2692
04H
VH4
VGMA2+(VGMA1−VGMA2)x
1668/5879
24H
VH36
VGMA4+(VGMA3−VGMA4)x
2276/2692
05H
VH5
VGMA2+(VGMA1−VGMA2)x
1147/5879
25H
VH37
VGMA4+(VGMA3−VGMA4)x
2172/2692
06H
VH6
VGMA2+(VGMA1−VGMA2)x
730/5879
26H
VH38
VGMA4+(VGMA3−VGMA4)x
2068/2692
07H
VH7
VGMA2+(VGMA1−VGMA2)x
313/5879
27H
VH39
VGMA4+(VGMA3−VGMA4)x
1964/2692
08H
VH8
GMA2
28H
VH40
VGMA4+(VGMA3−VGMA4)x
1860/2692
09H
VH9
VGMA3+(VGMA2−VGMA3)x
2825/3138
29H
VH41
VGMA4+(VGMA3−VGMA4)x
1756/2692
0AH
VH10
VGMA3+(VGMA2−VGMA3)x
2617/3138
2AH
VH42
VGMA4+(VGMA3−VGMA4)x
1652/2692
0BH
VH11
VGMA3+(VGMA2−VGMA3)x
2409/3138
2BH
VH43
VGMA4+(VGMA3−VGMA4)x
1548/2692
0CH
VH12
VGMA3+(VGMA2−VGMA3)x
2260/3138
2CH
VH44
VGMA4+(VGMA3−VGMA4)x
1429/2692
0DH
VH13
VGMA3+(VGMA2−VGMA3)x
2111/3138
2DH
VH45
VGMA4+(VGMA3−VGMA4)x
1310/2692
0EH
VH14
VGMA3+(VGMA2−VGMA3)x
1977/3138
2EH
VH46
VGMA4+(VGMA3−VGMA4)x
1191/2692
0FH
VH15
VGMA3+(VGMA2−VGMA3)x
1843/3138
2FH
VH47
VGMA4+(VGMA3−VGMA4)x
1072/2692
10H
VH16
VGMA3+(VGMA2−VGMA3)x
1724/3138
30H
VH48
VGMA4+(VGMA3−VGMA4)x
953/2692
11H
VH17
VGMA3+(VGMA2−VGMA3)x
1605/3138
31H
VH49
VGMA4+(VGMA3−VGMA4)x
834/2692
12H
VH18
VGMA3+(VGMA2−VGMA3)x
1486/3138
32H
VH50
VGMA4+(VGMA3−VGMA4)x
715/2692
13H
VH19
VGMA3+(VGMA2−VGMA3)x
1367/3138
33H
VH51
VGMA4+(VGMA3−VGMA4)x
581/2692
14H
VH20
VGMA3+(VGMA2−VGMA3)x
1248/3138
34H
VH52
VGMA4+(VGMA3−VGMA4)x
447/2692
15H
VH21
VGMA3+(VGMA2−VGMA3)x
1144/3138
35H
VH53
VGMA4+(VGMA3−VGMA4)x
298/2692
16H
VH22
VGMA3+(VGMA2−VGMA3)x
1040/3138
36H
VH54
VGMA4+(VGMA3−VGMA4)x
149/2692
17H
VH23
VGMA3+(VGMA2−VGMA3)x
936/3138
37H
VH55
VGMA4
18H
VH24
VGMA3+(VGMA2−VGMA3)x
832/3138
38H
VH56
VGMA5+(VGMA4−VGMA5)x
3140/3289
19H
VH25
VGMA3+(VGMA2−VGMA3)x
728/3138
39H
VH57
VGMA5+(VGMA4−VGMA5)x
2947/3289
1AH
VH26
VGMA3+(VGMA2−VGMA3)x
624/3138
3AH
VH58
VGMA5+(VGMA4−VGMA5)x
2724/3289
1BH
VH27
VGMA3+(VGMA2−VGMA3)x
520/3138
3BH
VH59
VGMA5+(VGMA4−VGMA5)x
2471/3289
1CH
VH28
VGMA3+(VGMA2−VGMA3)x
416/3138
3CH
VH60
VGMA5+(VGMA4−VGMA5)x
2158/3289
1DH
VH29
VGMA3+(VGMA2−VGMA3)x
312/3138
3DH
VH61
VGMA5+(VGMA4−VGMA5)x
1637/3289
1EH
VH30
VGMA3+(VGMA2−VGMA3)x
208/3138
3EH
VH62
VGMA5+(VGMA4−VGMA5)x
923/3289
1FH
VH31
VGMA3+(VGMA2−VGMA3)x
104/3138
3FH
VH63
VGMA5
FIGURE 6. FPD33584A Upper Gamma Voltages
www.national.com
12
FPD33584
Functional Description
(Continued)
20043214
20043215
FIGURE 7. FPD33584B R-DAC Configuration
13
www.national.com
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma B)
Data
Output Voltage (gamma B)
00H
VL0
VGMA10
20H
VL32
VGMA8
01H
VL1
VGMA9−(VGMA9−VGMA10)x
5747/6149
21H
VL33
VGMA7−(VGMA7−VGMA8)x
2040/2174
02H
VL2
VGMA9−(VGMA9−VGMA10)x
5345/6149
22H
VL34
VGMA7−(VGMA7−VGMA8)x
1906/2174
03H
VL3
VGMA9−(VGMA9−VGMA10)x
4943/6149
23H
VL35
VGMA7−(VGMA7−VGMA8)x
1772/2174
04H
VL4
VGMA9−(VGMA9−VGMA10)x
4541/6149
24H
VL36
VGMA7−(VGMA7−VGMA8)x
1638/2174
05H
VL5
VGMA9−(VGMA9−VGMA10)x
4139/6149
25H
VL37
VGMA7−(VGMA7−VGMA8)x
1504/2174
06H
VL6
VGMA9−(VGMA9−VGMA10)x
3737/6149
26H
VL38
VGMA7−(VGMA7−VGMA8)x
1370/2174
07H
VL7
VGMA9−(VGMA9−VGMA10)x
3335/6149
27H
VL39
VGMA7−(VGMA7−VGMA8)x
1236/2174
08H
VL8
VGMA9−(VGMA9−VGMA10)x
2933/6149
28H
VL40
VGMA7−(VGMA7−VGMA8)x
1102/2174
09H
VL9
VGMA9−(VGMA9−VGMA10)x
2531/6149
29H
VL41
VGMA7−(VGMA7−VGMA8)x
968/2174
0AH
VL10
VGMA9−(VGMA9−VGMA10)x
2129/6149
2AH
VL42
VGMA7−(VGMA7−VGMA8)x
834/2174
0BH
VL11
VGMA9−(VGMA9−VGMA10)x
1727/6149
2BH
VL43
VGMA7−(VGMA7−VGMA8)x
700/2174
0CH
VL12
VGMA9−(VGMA9−VGMA10)x
1325/6149
2CH
VL44
VGMA7−(VGMA7−VGMA8)x
566/2174
0DH
VL13
VGMA9−(VGMA9−VGMA10)x
968/6149
2DH
VL45
VGMA7−(VGMA7−VGMA8)x
432/2174
0EH
VL14
VGMA9−(VGMA9−VGMA10)x
611/6149
2EH
VL46
VGMA7−(VGMA7−VGMA8)x
298/2174
0FH
VL15
VGMA9−(VGMA9−VGMA10)x
298/6149
2FH
VL47
VGMA7−(VGMA7−VGMA8)x
149/2174
10H
VL16
VGMA9
30H
VL48
VGMA7
11H
VL17
VGMA8−(VGMA8−VGMA9)x
3036/3304
31H
VL49
VGMA6−(VGMA6−VGMA7)x
3214/3378
12H
VL18
VGMA8−(VGMA8−VGMA9)x
2768/3304
32H
VL50
VGMA6−(VGMA6−VGMA7)x
3035/3378
13H
VL19
VGMA8−(VGMA8−VGMA9)x
2500/3304
33H
VL51
VGMA6−(VGMA6−VGMA7)x
2856/3378
14H
VL20
VGMA8−(VGMA8−VGMA9)x
2247/3304
34H
VL52
VGMA6−(VGMA6−VGMA7)x
2663/3378
15H
VL21
VGMA8−(VGMA8−VGMA9)x
2009/3304
35H
VL53
VGMA6−(VGMA6−VGMA7)x
2470/3378
16H
VL22
VGMA8−(VGMA8−VGMA9)x
1786/3304
36H
VL54
VGMA6−(VGMA6−VGMA7)x
2262/3378
17H
VL23
VGMA8−(VGMA8−VGMA9)x
1578/3304
37H
VL55
VGMA6−(VGMA6−VGMA7)x
2054/3378
18H
VL24
VGMA8−(VGMA8−VGMA9)x
1177/3304
38H
VL56
VGMA6−(VGMA6−VGMA7)x
1816/3378
19H
VL25
VGMA8−(VGMA8−VGMA9)x
984/3304
39H
VL57
VGMA6−(VGMA6−VGMA7)x
1578/3378
1AH
VL26
VGMA8−(VGMA8−VGMA9)x
805/3304
3AH
VL58
VGMA6−(VGMA6−VGMA7)x
1325/3378
1BH
VL27
VGMA8−(VGMA8−VGMA9)x
626/3304
3BH
VL59
VGMA6−(VGMA6−VGMA7)x
1072/3378
1CH
VL28
VGMA8−(VGMA8−VGMA9)x
462/3304
3CH
VL60
VGMA6−(VGMA6−VGMA7)x
804/3378
1DH1DH
VL29
VGMA8−(VGMA8−VGMA9)x
462/3304
3DH
VL61
VGMA6−(VGMA6−VGMA7)x
536/3378
1EH
VL30
VGMA8−(VGMA8−VGMA9)x
298/3304
3EH3EH
VL62
VGMA6−(VGMA6−VGMA7)x
268/3378
1FH
VL31
VGMA8−(VGMA8−VGMA9)x
149/3304
3FH
VL63
VGMA6
FIGURE 8. FPD33584B Lower Gamma Voltages (compatible with Samsung S6C0666)
www.national.com
14
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma B)
Data
Output Voltage (gamma B)
00H
VH0
VGMA1
20H
VH32
VGMA3
01H
VH1
VGMA2+(VGMA1−VGMA2)x
5747/6149
21H
VH33
VGMA4+(VGMA3−VGMA4)x
2040/2174
02H
VH2
VGMA2+(VGMA1−VGMA2)x
5345/6149
22H
VH34
VGMA4+(VGMA3−VGMA4)x
1906/2174
03H
VH3
VGMA2+(VGMA1−VGMA2)x
4943/6149
23H
VH35
VGMA4+(VGMA3−VGMA4)x
1772/2174
04H
VH4
VGMA2+(VGMA1−VGMA2)x
4541/6149
24H
VH36
VGMA4+(VGMA3−VGMA4)x
1638/2174
05H
VH5
VGMA2+(VGMA1−VGMA2)x
4139/6149
25H
VH37
VGMA4+(VGMA3−VGMA4)x
1504/2174
06H
VH6
VGMA2+(VGMA1−VGMA2)x
3737/6149
26H
VH38
VGMA4+(VGMA3−VGMA4)x
1370/2174
07H
VH7
VGMA2+(VGMA1−VGMA2)x
3335/6149
27H
VH39
VGMA4+(VGMA3−VGMA4)x
1236/2174
08H
VH8
VGMA2+(VGMA1−VGMA2)x
2933/6149
28H
VH40
VGMA4+(VGMA3−VGMA4)x
1102/2174
09H
VH9
VGMA2+(VGMA1−VGMA2)x
2531/6149
29H
VH41
VGMA4+(VGMA3−VGMA4)x
968/2174
0AH
VH10
VGMA2+(VGMA1−VGMA2)x
2129/6149
2AH
VH42
VGMA4+(VGMA3−VGMA4)x
834/2174
0BH
VH11
VGMA2+(VGMA1−VGMA2)x
1727/6149
2BH
VH43
VGMA4+(VGMA3−VGMA4)x
700/2174
0CH
VH12
VGMA2+(VGMA1−VGMA2)x
1325/6149
2CH
VH44
VGMA4+(VGMA3−VGMA4)x
566/2174
0DH
VH13
VGMA2+(VGMA1−VGMA2)x
968/6149
2DH
VH45
VGMA4+(VGMA3−VGMA4)x
432/2174
0EH
VH14
VGMA2+(VGMA1−VGMA2)x
611/6149
2EH
VH46
VGMA4+(VGMA3−VGMA4)x
298/2174
0FH
VH15
VGMA2+(VGMA1−VGMA2)x
298/6149
2FH
VH47
VGMA4+(VGMA3−VGMA4)x
149/2174
10H
VH16
VGMA2
30H
VH48
VGMA4
11H
VH17
VGMA3+(VGMA2−VGMA3)x
3036/3304
31H
VH49
VGMA5+(VGMA4−VGMA5)x
3214/3378
12H
VH18
VGMA3+(VGMA2−VGMA3)x
2768/3304
32H
VH50
VGMA5+(VGMA4−VGMA5)x
3035/3378
13H
VH19
VGMA3+(VGMA2−VGMA3)x
2500/3304
33H
VH51
VGMA5+(VGMA4−VGMA5)x
2856/3378
14H
VH20
VGMA3+(VGMA2−VGMA3)x
2247/3304
34H
VH52
VGMA5+(VGMA4−VGMA5)x
2663/3378
15H
VH21
VGMA3+(VGMA2−VGMA3)x
2009/3304
35H
VH53
VGMA5+(VGMA4−VGMA5)x
2470/3378
16H
VH22
VGMA3+(VGMA2−VGMA3)x
1786/3304
36H
VH54
VGMA5+(VGMA4−VGMA5)x
2262/3378
17H
VH23
VGMA3+(VGMA2−VGMA3)x
1578/3304
37H
VH55
VGMA5+(VGMA4−VGMA5)x
2054/3378
18H
VH24
VGMA3+(VGMA2−VGMA3)x
1177/3304
38H
VH56
VGMA5+(VGMA4−VGMA5)x
1816/3378
19H
VH25
VGMA3+(VGMA2−VGMA3)x
984/3304
39H
VH57
VGMA5+(VGMA4−VGMA5)x
1578/3378
1AH
VH26
VGMA3+(VGMA2−VGMA3)x
805/3304
3AH
VH58
VGMA5+(VGMA4−VGMA5)x
1325/3378
1BH
VH27
VGMA3+(VGMA2−VGMA3)x
626/3304
3BH
VH59
VGMA5+(VGMA4−VGMA5)x
1072/3378
1CH
VH28
VGMA3+(VGMA2−VGMA3)x
462/3304
3CH
VH60
VGMA5+(VGMA4−VGMA5)x
804/3378
1DH
VH29
VGMA3+(VGMA2−VGMA3)x
462/3304
3DH
VH61
VGMA5+(VGMA4−VGMA5)x
536/3378
1EH
VH30
VGMA3+(VGMA2−VGMA3)x
298/3304
3EH
VH62
VGMA5+(VGMA4−VGMA5)x
268/3378
1FH
VH31
VGMA3+(VGMA2−VGMA3)x
149/3304
3FH
VH63
VGMA5
FIGURE 9. FPD33584B Upper Gamma Voltages (compatible with Samsung S6C0666)
15
www.national.com
FPD33584
Functional Description
(Continued)
20043214
20043215
FIGURE 10. FPD33584C R-DAC Configuration
www.national.com
16
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma C)
Data
Output Voltage (gamma C)
00H
VL0
VGMA10
20H
VL32
VGMA8
01H
VL1
VGMA9−(VGMA9−VGMA10)x
7250/8050
21H
VL33
VGMA7−(VGMA7−VGMA8)x
1500/1600
02H
VL2
VGMA9−(VGMA9−VGMA10)x
6500/8050
22H
VL34
VGMA7−(VGMA7−VGMA8)x
1400/1600
03H
VL3
VGMA9−(VGMA9−VGMA10)x
5800/8050
23H
VL35
VGMA7−(VGMA7−VGMA8)x
1300/1600
04H
VL4
VGMA9−(VGMA9−VGMA10)x
5150/8050
24H
VL36
VGMA7−(VGMA7−VGMA8)x
1200/1600
05H
VL5
VGMA9−(VGMA9−VGMA10)x
4550/8050
25H
VL37
VGMA7−(VGMA7−VGMA8)x
1100/1600
06H
VL6
VGMA9−(VGMA9−VGMA10)x
4000/8050
26H
VL38
VGMA7−(VGMA7−VGMA8)x
1000/1600
07H
VL7
VGMA9−(VGMA9−VGMA10)x
3450/8050
27H
VL39
VGMA7−(VGMA7−VGMA8)x
900/1600
08H
VL8
VGMA9−(VGMA9−VGMA10)x
2950/8050
28H
VL40
VGMA7−(VGMA7−VGMA8)x
800/1600
09H
VL9
VGMA9−(VGMA9−VGMA10)x
2450/8050
29H
VL41
VGMA7−(VGMA7−VGMA8)x
700/1600
0AH
VL10
VGMA9−(VGMA9−VGMA10)x
2050/8050
2AH
VL42
VGMA7−(VGMA7−VGMA8)x
600/1600
0BH
VL11
VGMA9−(VGMA9−VGMA10)x
1650/8050
2BH
VL43
VGMA7−(VGMA7−VGMA8)x
500/1600
0CH
VL12
VGMA9−(VGMA9−VGMA10)x
1300/8050
2CH
VL44
VGMA7−(VGMA7−VGMA8)x
400/1600
0DH
VL13
VGMA9−(VGMA9−VGMA10)x
950/8050
2DH
VL45
VGMA7−(VGMA7−VGMA8)x
300/1600
0EH
VL14
VGMA9−(VGMA9−VGMA10)x
600/8050
2EH
VL46
VGMA7−(VGMA7−VGMA8)x
200/1600
0FH
VL15
VGMA9−(VGMA9−VGMA10)x
300/8050
2FH
VL47
VGMA7−(VGMA7−VGMA8)x
100/1600
10H
VL16
VGMA9
30H
VL48
VGMA7
11H
VL17
VGMA8−(VGMA8−VGMA9)x
2450/2750
31H
VL49
VGMA6−(VGMA6−VGMA7)x
3350/3450
12H
VL18
VGMA8−(VGMA8−VGMA9)x
2200/2750
32H
VL50
VGMA6−(VGMA6−VGMA7)x
3250/3450
13H
VL19
VGMA8−(VGMA8−VGMA9)x
1950/2750
33H
VL51
VGMA6−(VGMA6−VGMA7)x
3150/3450
14H
VL20
VGMA8−(VGMA8−VGMA9)x
1700/2750
34H
VL52
VGMA6−(VGMA6−VGMA7)x
3050/3450
15H
VL21
VGMA8−(VGMA8−VGMA9)x
1500/2750
35H
VL53
VGMA6−(VGMA6−VGMA7)x
2950/3450
16H
VL22
VGMA8−(VGMA8−VGMA9)x
1300/2750
36H
VL54
VGMA6−(VGMA6−VGMA7)x
2800/3450
17H
VL23
VGMA8−(VGMA8−VGMA9)x
1100/2750
37H
VL55
VGMA6−(VGMA6−VGMA7)x
2650/3450
18H
VL24
VGMA8−(VGMA8−VGMA9)x
950/2750
38H38H
VL56
VGMA6−(VGMA6−VGMA7)x
2500/3450
19H19H
VL25
VGMA8−(VGMA8−VGMA9)x
800/2750
39H
VL57
VGMA6−(VGMA6−VGMA7)x
2300/3450
1AH
VL26
VGMA8−(VGMA8−VGMA9)x
650/2750
3AH
VL58
VGMA6−(VGMA6−VGMA7)x
2100/3450
1BH
VL27
VGMA8−(VGMA8−VGMA9)x
500/2750
3BH
VL59
VGMA6−(VGMA6−VGMA7)x
1850/3450
1CH
VL28
VGMA8−(VGMA8−VGMA9)x
400/2750
3CH
VL60
VGMA6−(VGMA6−VGMA7)x
1600/3450
1DH
VL29
VGMA8−(VGMA8−VGMA9)x
300/2750
3DH
VL61
VGMA6−(VGMA6−VGMA7)x
1300/3450
1EH
VL30
VGMA8−(VGMA8−VGMA9)x
200/2750
3EH
VL62
VGMA6−(VGMA6−VGMA7)x
800/3450
1FH
VL31
VGMA8−(VGMA8−VGMA9)x
100/2750
3FH
VL63
VGMA6
FIGURE 11. FPD33584C Lower Gamma Voltages (compatible with NEC µPD17632A)
17
www.national.com
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma C)
Data
Output Voltage (gamma C)
00H
VH0
VGMA1
20H
VH32
VGMA3
01H
VH1
VGMA2+(VGMA1−VGMA2)x
7250/8050
21H
VH33
VGMA4+(VGMA3−VGMA4)x
1500/1600
02H
VH2
VGMA2+(VGMA1−VGMA2)x
6500/8050
22H
VH34
VGMA4+(VGMA3−VGMA4)x
1400/1600
03H
VH3
VGMA2+(VGMA1−VGMA2)x
5800/8050
23H
VH35
VGMA4+(VGMA3−VGMA4)x
1300/1600
04H
VH4
VGMA2+(VGMA1−VGMA2)x
5150/8050
24H
VH36
VGMA4+(VGMA3−VGMA4)x
1200/1600
05H
VH5
VGMA2+(VGMA1−VGMA2)x
4550/8050
25H
VH37
VGMA4+(VGMA3−VGMA4)x
1100/1600
06H
VH6
VGMA2+(VGMA1−VGMA2)x
4000/8050
26H
VH38
VGMA4+(VGMA3−VGMA4)x
1000/1600
07H
VH7
VGMA2+(VGMA1−VGMA2)x
3450/8050
27H
VH39
VGMA4+(VGMA3−VGMA4)x
900/1600
08H
VH8
VGMA2+(VGMA1−VGMA2)x
2950/8050
28H
VH40
VGMA4+(VGMA3−VGMA4)x
800/1600
09H
VH9
VGMA2+(VGMA1−VGMA2)x
2450/8050
29H
VH41
VGMA4+(VGMA3−VGMA4)x
700/1600
0AH
VH10
VGMA2+(VGMA1−VGMA2)x
2050/8050
2AH
VH42
VGMA4+(VGMA3−VGMA4)x
600/1600
0BH
VH11
VGMA2+(VGMA1−VGMA2)x
1650/8050
2BH
VH43
VGMA4+(VGMA3−VGMA4)x
500/1600
0CH
VH12
VGMA2+(VGMA1−VGMA2)x
1300/8050
2CH
VH44
VGMA4+(VGMA3−VGMA4)x
400/1600
0DH
VH13
VGMA2+(VGMA1−VGMA2)x
950/8050
2DH
VH45
VGMA4+(VGMA3−VGMA4)x
300/1600
0EH
VH14
VGMA2+(VGMA1−VGMA2)x
600/8050
2EH
VH46
VGMA4+(VGMA3−VGMA4)x
200/1600
0FH
VH15
VGMA2+(VGMA1−VGMA2)x
300/8050
2FH
VH47
VGMA4+(VGMA3−VGMA4)x
100/1600
10H
VH16
VGMA2
30H
VH48
VGMA4
11H
VH17
VGMA3+(VGMA2−VGMA3)x
2450/2750
31H
VH49
VGMA5+(VGMA4−VGMA5)x
3350/3450
12H
VH18
VGMA3+(VGMA2−VGMA3)x
2200/2750
32H
VH50
VGMA5+(VGMA4−VGMA5)x
3250/3450
13H
VH19
VGMA3+(VGMA2−VGMA3)x
1950/2750
33H
VH51
VGMA5+(VGMA4−VGMA5)x
3150/3450
14H
VH20
VGMA3+(VGMA2−VGMA3)x
1700/2750
34H
VH52
VGMA5+(VGMA4−VGMA5)x
3050/3450
15H
VH21
VGMA3+(VGMA2−VGMA3)x
1500/2750
35H
VH53
VGMA5+(VGMA4−VGMA5)x
2950/3450
16H
VH22
VGMA3+(VGMA2−VGMA3)x
1300/2750
36H
VH54
VGMA5+(VGMA4−VGMA5)x
2800/3450
17H
VH23
VGMA3+(VGMA2−VGMA3)x
1100/2750
37H
VH55
VGMA5+(VGMA4−VGMA5)x
2650/3450
18H
VH24
VGMA3+(VGMA2−VGMA3)x
950/2750
38H
VH56
VGMA5+(VGMA4−VGMA5)x
2500/3450
19H
VH25
VGMA3+(VGMA2−VGMA3)x
800/2750
39H
VH57
VGMA5+(VGMA4−VGMA5)x
2300/3450
1AH
VH26
VGMA3+(VGMA2−VGMA3)x
650/2750
3AH
VH58
VGMA5+(VGMA4−VGMA5)x
2100/3450
1BH
VH27
VGMA3+(VGMA2−VGMA3)x
500/2750
3BH
VH59
VGMA5+(VGMA4−VGMA5)x
1850/3450
1CH
VH28
VGMA3+(VGMA2−VGMA3)x
400/2750
3CH
VH60
VGMA5+(VGMA4−VGMA5)x
1600/3450
1DH
VH29
VGMA3+(VGMA2−VGMA3)x
300/2750
3DH
VH61
VGMA5+(VGMA4−VGMA5)x
1300/3450
1EH
VH30
VGMA3+(VGMA2−VGMA3)x
200/2750
3EH
VH62
VGMA5+(VGMA4−VGMA5)x
800/3450
1FH
VH31
VGMA3+(VGMA2−VGMA3)x
100/2750
3FH
VH63
VGMA5
FIGURE 12. FPD33584C Upper Gamma Voltages (compatible with NEC µPD17632A)
www.national.com
18
FPD33584
Functional Description
(Continued)
20043209
20043210
FIGURE 13. FPD33584D R-DAC Configuration (compatible with Hitachi HD66323)
19
www.national.com
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma D)
Data
Output Voltage (gamma D)
00H
VL0
VGMA10
20H
VL32
VGMA8
01H
VL1
VGMA9−(VGMA9−VGMA10)x
3690/4613
21H
VL33
VGMA7−(VGMA7−VGMA8)x
2783/2902
02H
VL2
VGMA9−(VGMA9−VGMA10)x
2917/4613
22H
VL34
VGMA7−(VGMA7−VGMA8)x
2664/2902
03H
VL3
VGMA9−(VGMA9−VGMA10)x
2307/4613
23H
VL35
VGMA7−(VGMA7−VGMA8)x
2545/2902
04H
VL4
VGMA9−(VGMA9−VGMA10)x
1696/4613
24H
VL36
VGMA7−(VGMA7−VGMA8)x
2426/2902
05H
VL5
VGMA9−(VGMA9−VGMA10)x
1235/4613
25H
VL37
VGMA7−(VGMA7−VGMA8)x
2321/2902
06H
VL6
VGMA9−(VGMA9−VGMA10)x
774/4613
26H
VL38
VGMA7−(VGMA7−VGMA8)x
22217/2902
07H
VL7
VGMA9−(VGMA9−VGMA10)x
313/4613
27H
VL39
VGMA7−(VGMA7−VGMA8)x
2113/2902
08H
VL8
VGMA9
28H
VL40
VGMA7−(VGMA7−VGMA8)x
2009/2902
09H
VL9
VGMA8−(VGMA8−VGMA9)x
3646/3958
29H
VL41
VGMA7−(VGMA7−VGMA8)x
1905/2902
0AH
VL10
VGMA8−(VGMA8−VGMA9)x
3378/3958
2AH
VL42
VGMA7−(VGMA7−VGMA8)x
1786/2902
0BH
VL11
VGMA8−(VGMA8−VGMA9)x
3110/3958
2BH
VL43
VGMA7−(VGMA7−VGMA8)x
1667/2902
0CH
VL12
VGMA8−(VGMA8−VGMA9)x
2887/3958
2CH
VL44
VGMA7−(VGMA7−VGMA8)x
1548/2902
0DH
VL13
VGMA8−(VGMA8−VGMA9)x
2664/3958
2DH
VL45
VGMA7−(VGMA7−VGMA8)x
1429/2902
0EH
VL14
VGMA8−(VGMA8−VGMA9)x
2470/3958
2EH
VL46
VGMA7−(VGMA7−VGMA8)x
1310/2902
0FH
VL15
VGMA8−(VGMA8−VGMA9)x
2292/3958
2FH
VL47
VGMA7−(VGMA7−VGMA8)x
1190/2902
10H
VL16
VGMA8−(VGMA8−VGMA9)x
2113/3958
30H
VL48
VGMA7−(VGMA7−VGMA8)x
1071/2902
11H
VL17
VGMA8−(VGMA8−VGMA9)x
1949/3958
31H
VL49
VGMA7−(VGMA7−VGMA8)x
952/2902
12H
VL18
VGMA8−(VGMA8−VGMA9)x
1801/3958
32H
VL50
VGMA7−(VGMA7−VGMA8)x
818/2902
13H
VL19
VGMA8−(VGMA8−VGMA9)x
1652/3958
33H
VL51
VGMA7−(VGMA7−VGMA8)x
670/2902
14H
VL20
VGMA8−(VGMA8−VGMA9)x
1503/3958
34H
VL52
VGMA7−(VGMA7−VGMA8)x
521/2902
15H
VL21
VGMA8−(VGMA8−VGMA9)x
1369/3958
35H
VL53
VGMA7−(VGMA7−VGMA8)x
357/2902
16H
VL22
VGMA8−(VGMA8−VGMA9)x
1235/3958
36H
VL54
VGMA7−(VGMA7−VGMA8)x
179/2902
17H
VL23
VGMA8−(VGMA8−VGMA9)x
1101/3958
37H
VL55
VGMA7
18H
VL24
VGMA8−(VGMA8−VGMA9)x
967/3958
38H
VL56
VGMA6−(VGMA6−VGMA7)x
3348/3527
19H
VL25
VGMA8−(VGMA8−VGMA9)x
833/3958
39H
VL57
VGMA6−(VGMA6−VGMA7)x
3125/3527
1AH
VL26
VGMA8−(VGMA8−VGMA9)x
714/3958
3AH
VL58
VGMA6−(VGMA6−VGMA7)x
2887/3527
1BH
VL27
VGMA8−(VGMA8−VGMA9)x
595/3958
3BH
VL59
VGMA6−(VGMA6−VGMA7)x
2619/3527
1CH
VL28
VGMA8−(VGMA8−VGMA9)x
476/3958
3CH
VL60
VGMA6−(VGMA6−VGMA7)x
2307/3527
1DH
VL29
VGMA8−(VGMA8−VGMA9)x
357/3958
3DH
VL61
VGMA6−(VGMA6−VGMA7)x
1845/3527
1EH
VL30
VGMA8−(VGMA8−VGMA9)x
239/3958
3EH
VL62
VGMA6−(VGMA6−VGMA7)x
1235/3527
1FH
VL31
VGMA8−(VGMA8−VGMA9)x
119/3958
3FH
VL63
VGMA6
FIGURE 14. FPD33584D Lower Gamma Voltages (compatible with Hitach HD66323)
www.national.com
20
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma D)
Data
Output Voltage (gamma D)
00H
VH0
VGMA1
20H
VH32
VGMA3
01H
VH1
VGMA2+(VGMA1−VGMA2)x
3690/4613
21H
VH33
VGMA4+(VGMA3−VGMA4)x
2783/2902
02H
VH2
VGMA2+(VGMA1−VGMA2)x
2917/4613
22H
VH34
VGMA4+(VGMA3−VGMA4)x
2664/2902
03H
VH3
VGMA2+(VGMA1−VGMA2)x
2307/4613
23H
VH35
VGMA4+(VGMA3−VGMA4)x
2545/2902
04H
VH4
VGMA2+(VGMA1−VGMA2)x
1696/4613
24H
VH36
VGMA4+(VGMA3−VGMA4)x
2426/2902
05H
VH5
VGMA2+(VGMA1−VGMA2)x
1235/4613
25H
VH37
VGMA4+(VGMA3−VGMA4)x
2321/2902
06H
VH6
VGMA2+(VGMA1−VGMA2)x
774/4613
26H
VH38
VGMA4+(VGMA3−VGMA4)x
2217/2902
07H
VH7
VGMA2+(VGMA1−VGMA2)x
313/4613
27H
VH39
VGMA4+(VGMA3−VGMA4)x
2113/2902
08H
VH8
VGMA2
28H
VH40
VGMA4+(VGMA3−VGMA4)x
2009/2902
09H
VH9
VGMA3+(VGMA2−VGMA3)x
3646/3958
29H
VH41
VGMA4+(VGMA3−VGMA4)x
1905/2902
0AH
VH10
VGMA3+(VGMA2−VGMA3)x
3378/3958
2AH
VH42
VGMA4+(VGMA3−VGMA4)x
1786/2902
0BH
VH11
VGMA3+(VGMA2−VGMA3)x
3110/3958
2BH
VH43
VGMA4+(VGMA3−VGMA4)x
1667/2902
0CH
VH12
VGMA3+(VGMA2−VGMA3)x
2887/3958
2CH
VH44
VGMA4+(VGMA3−VGMA4)x
1548/2902
0DH
VH13
VGMA3+(VGMA2−VGMA3)x
2664/3958
2DH
VH45
VGMA4+(VGMA3−VGMA4)x
1429/2902
0EH
VH14
VGMA3+(VGMA2−VGMA3)x
2470/3958
2EH
VH46
VGMA4+(VGMA3−VGMA4)x
1310/2902
0FH
VH15
VGMA3+(VGMA2−VGMA3)x
2292/3958
2FH
VH47
VGMA4+(VGMA3−VGMA4)x
1190/2902
10H
VH16
VGMA3+(VGMA2−VGMA3)x
2113/3958
30H
VH48
VGMA4+(VGMA3−VGMA4)x
1071/2902
11H
VH17
VGMA3+(VGMA2−VGMA3)x
1949/3958
31H
VH49
VGMA4+(VGMA3−VGMA4)x
952/2902
12H
VH18
VGMA3+(VGMA2−VGMA3)x
1801/3958
32H
VH50
VGMA4+(VGMA3−VGMA4)x
818/2902
13H
VH19
VGMA3+(VGMA2−VGMA3)x
1652/3958
33H
VH51
VGMA4+(VGMA3−VGMA4)x
670/2902
14H
VH20
VGMA3+(VGMA2−VGMA3)x
1503/3958
34H
VH52
VGMA4+(VGMA3−VGMA4)x
521/2902
15H
VH21
VGMA3+(VGMA2−VGMA3)x
1369/3958
35H
VH53
VGMA4+(VGMA3−VGMA4)x
357/2902
16H
VH22
VGMA3+(VGMA2−VGMA3)x
1235/3958
36H
VH54
VGMA4+(VGMA3−VGMA4)x
179/2902
17H
VH23
VGMA3+(VGMA2−VGMA3)x
1101/3958
37H
VH55
VGMA4
18H
VH24
VGMA3+(VGMA2−VGMA3)x
967/3958
38H
VH56
VGMA5+(VGMA4−VGMA5)x
3348/3527
19H
VH25
VGMA3+(VGMA2−VGMA3)x
833/3958
39H
VH57
VGMA5+(VGMA4−VGMA5)x
3125/3527
1AH
VH26
VGMA3+(VGMA2−VGMA3)x
714/3958
3AH
VH58
VGMA5+(VGMA4−VGMA5)x
2887/3527
1BH
VH27
VGMA3+(VGMA2−VGMA3)x
595/3958
3BH
VH59
VGMA5+(VGMA4−VGMA5)x
2619/3527
1CH
VH28
VGMA3+(VGMA2−VGMA3)x
476/3958
3CH
VH60
VGMA5+(VGMA4−VGMA5)x
2307/3527
1DH
VH29
VGMA3+(VGMA2−VGMA3)x
357/3958
3DH
VH61
VGMA5+(VGMA4−VGMA5)x
21845/3527
1EH
VH30
VGMA3+(VGMA2−VGMA3)x
239/3958
3EH
VH62
VGMA5+(VGMA4−VGMA5)x
1235/3927
1FH
VH31
VGMA3+(VGMA2−VGMA3)x
119/3958
3FH
VH63
VGMA5
1235/3527
FIGURE 15. FPD33584D Upper Gamma Voltages (compatible with Hitach HD66323)
21
www.national.com
FPD33584
Functional Description
(Continued)
20043214
20043215
FIGURE 16. FPD33584F R-DAC Configuration
www.national.com
22
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma F)
Data
Output Voltage (gamma F)
00H
VL0
VGMA10
20H
VL32
VGMA8
01H
VL1
VGMA9−(VGMA9−VGMA10)x
5536/6459
21H
VL33
VGMA7−(VGMA7−VGMA8)x
1710/1829
02H
VL2
VGMA9−(VGMA9−VGMA10)x
4762/6459
22H
VL34
VGMA7−(VGMA7−VGMA8)x
1591/1829
03H
VL3
VGMA9−(VGMA9−VGMA10)x
4152/6459
23H
VL35
VGMA7−(VGMA7−VGMA8)x
1472/1829
04H
VL4
VGMA9−(VGMA9−VGMA10)x
3542/6459
24H
VL36
VGMA7−(VGMA7−VGMA8)x
1353/1829
05H
VL5
VGMA9−(VGMA9−VGMA10)x
3081/6459
25H
VL37
VGMA7−(VGMA7−VGMA8)x
1249/1829
06H
VL6
VGMA9−(VGMA9−VGMA10)x
2620/6459
26H
VL38
VGMA7−(VGMA7−VGMA8)x
1145/1829
07H
VL7
VGMA9−(VGMA9−VGMA10)x
2159/6459
27H
VL39
VGMA7−(VGMA7−VGMA8)x
1041/1829
08H
VL8
VGMA9−(VGMA9−VGMA10)x
1846/6459
28H
VL40
VGMA7−(VGMA7−VGMA8)x
937/1829
09H
VL9
VGMA9−(VGMA9−VGMA10)x
1533/6459
29H
VL41
VGMA7−(VGMA7−VGMA8)x
833/1829
0AH
VL10
VGMA9−(VGMA9−VGMA10)x
1265/6459
2AH
VL42
VGMA7−(VGMA7−VGMA8)x
714/1829
0BH
VL11
VGMA9−(VGMA9−VGMA10)x
997/6459
2BH
VL43
VGMA7−(VGMA7−VGMA8)x
595/1829
0CH
VL12
VGMA9−(VGMA9−VGMA10)x
774/6459
2CH
VL44
VGMA7−(VGMA7−VGMA8)x
476/1829
0DH
VL13
VGMA9−(VGMA9−VGMA10)x
551/6459
2DH
VL45
VGMA7−(VGMA7−VGMA8)x
357/1829
0EH
VL14
VGMA9−(VGMA9−VGMA10)x
358/6459
2EH
VL46
VGMA7−(VGMA7−VGMA8)x
238/1829
0FH
VL15
VGMA9−(VGMA9−VGMA10)x
179/6459
2FH
VL47
VGMA7−(VGMA7−VGMA8)x
119/1829
10H
VL16
VGMA9
30H
VL48
VGMA7
11H
VL17
VGMA8−(VGMA8−VGMA9)x
1950/2114
31H
VL49
VGMA6−(VGMA6−VGMA7)x
4481/4600
12H
VL18
VGMA8−(VGMA8−VGMA9)x
1801/2114
32H
VL50
VGMA6−(VGMA6−VGMA7)x
4347/4600
13H
VL19
VGMA8−(VGMA8−VGMA9)x
1652/2114
33H
VL51
VGMA6−(VGMA6−VGMA7)x
4198/4600
14H
VL20
VGMA8−(VGMA8−VGMA9)x
1503/2114
34H
VL52
VGMA6−(VGMA6−VGMA7)x
4049/4600
15H
VL21
VGMA8−(VGMA8−VGMA9)x
1369/2114
35H
VL53
VGMA6−(VGMA6−VGMA7)x
3885/4600
16H
VL22
VGMA8−(VGMA8−VGMA9)x
1235/2114
36H
VL54
VGMA6−(VGMA6−VGMA7)x
3706/4600
17H
VL23
VGMA8−(VGMA8−VGMA9)x
1101/2114
37H
VL55
VGMA6−(VGMA6−VGMA7)x
3527/4600
18H
VL24
VGMA8−(VGMA8−VGMA9)x
967/2114
38H
VL56
VGMA6−(VGMA6−VGMA7)x
3348/4600
19H
VL25
VGMA8−(VGMA8−VGMA9)x
833/2114
39H
VL57
VGMA6−(VGMA6−VGMA7)x
3125/4600
1AH
VL26
VGMA8−(VGMA8−VGMA9)x
714/2114
3AH
VL58
VGMA6−(VGMA6−VGMA7)x
2887/4600
1BH
VL27
VGMA8−(VGMA8−VGMA9)x
595/2114
3BH
VL59
VGMA6−(VGMA6−VGMA7)x
2619/4600
1CH
VL28
VGMA8−(VGMA8−VGMA9)x
476/2114
3CH
VL60
VGMA6−(VGMA6−VGMA7)x
2306/4600
1DH
VL29
VGMA8−(VGMA8−VGMA9)x
357/2114
3DH
VL61
VGMA6−(VGMA6−VGMA7)x
1845/2600
1EH
VL30
VGMA8−(VGMA8−VGMA9)x
238/2114
3EH
VL62
VGMA6−(VGMA6−VGMA7)x
1235/4600
1FH
VL31
VGMA8−(VGMA8−VGMA9)x
119/2114
3FH
VL63
VGMA6
FIGURE 17. FPD33584F Lower Gamma Voltages
23
www.national.com
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma F)
Data
Output Voltage (gamma F)
00H
VH0
VGMA1
20H
VH32
VGMA3
01H
VH1
VGMA2+(VGMA1−VGMA2)x
5536/6459
21H
VH33
VGMA4+(VGMA3−VGMA4)x
1710/1829
02H
VH2
VGMA2+(VGMA1−VGMA2)x
4762/6459
22H
VH34
VGMA4+(VGMA3−VGMA4)x
1591/1829
03H
VH3
VGMA2+(VGMA1−VGMA2)x
4152/6459
23H
VH35
VGMA4+(VGMA3−VGMA4)x
1472/1829
04H
VH4
VGMA2+(VGMA1−VGMA2)x
3542/6459
24H
VH36
VGMA4+(VGMA3−VGMA4)x
1353/1829
05H
VH5
VGMA2+(VGMA1−VGMA2)x
3081/6459
25H
VH37
VGMA4+(VGMA3−VGMA4)x
1249/1829
06H
VH6
VGMA2+(VGMA1−VGMA2)x
2620/6459
26H
VH38
VGMA4+(VGMA3−VGMA4)x
1145/1829
07H
VH7
VGMA2+(VGMA1−VGMA2)x
2159/6459
27H
VH39
VGMA4+(VGMA3−VGMA4)x
1041/1829
08H
VH8
VGMA2+(VGMA1−VGMA2)x
1846/6459
28H
VH40
VGMA4+(VGMA3−VGMA4)x
937/1829
09H
VH9
VGMA2+(VGMA1−VGMA2)x
1533/6459
29H
VH41
VGMA4+(VGMA3−VGMA4)x
833/1829
0AH
VH10
VGMA2+(VGMA1−VGMA2)x
1265/6459
2AH
VH42
VGMA4+(VGMA3−VGMA4)x
714/1829
0BH
VH11
VGMA2+(VGMA1−VGMA2)x
997/6459
2BH
VH43
VGMA4+(VGMA3−VGMA4)x
595/1829
0CH
VH12
VGMA2+(VGMA1−VGMA2)x
774/6459
2CH
VH44
VGMA4+(VGMA3−VGMA4)x
476/1829
0DH
VH13
VGMA2+(VGMA1−VGMA2)x
551/6459
2DH
VH45
VGMA4+(VGMA3−VGMA4)x
357/1829
0EH
VH14
VGMA2+(VGMA1−VGMA2)x
358/6459
2EH
VH46
VGMA4+(VGMA3−VGMA4)x
238/1829
0FH
VH15
VGMA2+(VGMA1−VGMA2)x
179/6459
2FH
VH47
VGMA4+(VGMA3−VGMA4)x
119/1829
10H
VH16
VGMA2
30H
VH48
VGMA4
11H
VH17
VGMA3+(VGMA2−VGMA3)x
1950/2114
31H
VH49
VGMA5+(VGMA4−VGMA5)x
4481/4600
12H
VH18
VGMA3+(VGMA2−VGMA3)x
1801/2114
32H
VH50
VGMA5+(VGMA4−VGMA5)x
4347/4600
13H
VH19
VGMA3+(VGMA2−VGMA3)x
1652/2114
33H
VH51
VGMA5+(VGMA4−VGMA5)x
4198/4600
14H
VH20
VGMA3+(VGMA2−VGMA3)x
1503/2114
34H
VH52
VGMA5+(VGMA4−VGMA5)x
4049/4600
15H
VH21
VGMA3+(VGMA2−VGMA3)x
1369/2114
35H
VH53
VGMA5+(VGMA4−VGMA5)x
3885/4600
16H
VH22
VGMA3+(VGMA2−VGMA3)x
1235/2114
36H
VH54
VGMA5+(VGMA4−VGMA5)x
3706/4600
17H
VH23
VGMA3+(VGMA2−VGMA3)x
1101/2114
37H
VH55
VGMA5+(VGMA4−VGMA5)x
3527/4600
18H
VH24
VGMA3+(VGMA2−VGMA3)x
967/2114
38H
VH56
VGMA5+(VGMA4−VGMA5)x
3348/4600
19H
VH25
VGMA3+(VGMA2−VGMA3)x
833/2114
39H
VH57
VGMA5+(VGMA4−VGMA5)x
3125/4600
1AH
VH26
VGMA3+(VGMA2−VGMA3)x
714/2114
3AH
VH58
VGMA5+(VGMA4−VGMA5)x
2887/4600
1BH
VH27
VGMA3+(VGMA2−VGMA3)x
595/2114
3BH
VH59
VGMA5+(VGMA4−VGMA5)x
2619/4600
1CH
VH28
VGMA3+(VGMA2−VGMA3)x
476/2114
3CH
VH60
VGMA5+(VGMA4−VGMA5)x
2306/4600
1DH
VH29
VGMA3+(VGMA2−VGMA3)x
357/2114
3DH
VH61
VGMA5+(VGMA4−VGMA5)x
1845/4600
1EH
VH30
VGMA3+(VGMA2−VGMA3)x
238/2114
3EH
VH62
VGMA5+(VGMA4−VGMA5)x
1235/4600
1FH
VH31
VGMA3+(VGMA2−VGMA3)x
119/2114
3FH
VH63
VGMA5
FIGURE 18. FPD33584F Upper Gamma Voltages
www.national.com
24
FPD33584
Functional Description
(Continued)
20043214
20043215
FIGURE 19. FPD33584G R-DAC Configuration
25
www.national.com
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma G)
Data
Output Voltage (gamma G)
00H
VL0
VGMA10
20H
VL32
VGMA8
01H
VL1
VGMA9−(VGMA9−VGMA10)x
6027/6667
21H
VL33
VGMA7−(VGMA7−VGMA8)x
1500/1604
02H
VL2
VGMA9−(VGMA9−VGMA10)x
5432/6667
22H
VL34
VGMA7−(VGMA7−VGMA8)x
1396/1604
03H
VL3
VGMA9−(VGMA9−VGMA10)x
4837/6667
23H
VL35
VGMA7−(VGMA7−VGMA8)x
1307/1604
04H
VL4
VGMA9−(VGMA9−VGMA10)x
4257/6667
24H
VL36
VGMA7−(VGMA7−VGMA8)x
1218/1604
05H
VL5
VGMA9−(VGMA9−VGMA10)x
3692/6667
25H
VL37
VGMA7−(VGMA7−VGMA8)x
1114/1604
06H
VL6
VGMA9−(VGMA9−VGMA10)x
3186/6667
26H
VL38
VGMA7−(VGMA7−VGMA8)x
1010/1604
07H
VL7
VGMA9−(VGMA9−VGMA10)x
2769/6667
27H
VL39
VGMA7−(VGMA7−VGMA8)x
906/1604
08H
VL8
VGMA9−(VGMA9−VGMA10)x
2352/6667
28H
VL40
VGMA7−(VGMA7−VGMA8)x
817/1604
09H
VL9
VGMA9−(VGMA9−VGMA10)x
1920/6667
29H
VL41
VGMA7−(VGMA7−VGMA8)x
713/1604
0AH
VL10
VGMA9−(VGMA9−VGMA10)x
1533/6667
2AH
VL42
VGMA7−(VGMA7−VGMA8)x
624/1604
0BH
VL11
VGMA9−(VGMA9−VGMA10)x
1220/6667
2BH
VL43
VGMA7−(VGMA7−VGMA8)x
520/1604
0CH
VL12
VGMA9−(VGMA9−VGMA10)x
937/6667
2CH
VL44
VGMA7−(VGMA7−VGMA8)x
431/1604
0DH
VL13
VGMA9−(VGMA9−VGMA10)x
684/6667
2DH
VL45
VGMA7−(VGMA7−VGMA8)x
327/1604
0EH
VL14
VGMA9−(VGMA9−VGMA10)x
431/6667
2EH
VL46
VGMA7−(VGMA7−VGMA8)x
208/1604
0FH
VL15
VGMA9−(VGMA9−VGMA10)x
208/6667
2FH
VL47
VGMA7−(VGMA7−VGMA8)x
104/1604
10H
VL16
VGMA9
30H
VL48
VGMA7
11H
VL17
VGMA8−(VGMA8−VGMA9)x
1949/2142
31H
VL49
VGMA6−(VGMA6−VGMA7)x
4479/4583
12H
VL18
VGMA8−(VGMA8−VGMA9)x
1756/2142
32H
VL50
VGMA6−(VGMA6−VGMA7)x
4360/4583
13H
VL19
VGMA8−(VGMA8−VGMA9)x
1592/2142
33H
VL51
VGMA6−(VGMA6−VGMA7)x
4241/4583
14H
VL20
VGMA8−(VGMA8−VGMA9)x
1443/2142
34H
VL52
VGMA6−(VGMA6−VGMA7)x
4122/4583
15H
VL21
VGMA8−(VGMA8−VGMA9)x
1294/2142
35H
VL53
VGMA6−(VGMA6−VGMA7)x
4003/4583
16H
VL22
VGMA8−(VGMA8−VGMA9)x
1160/2142
36H
VL54
VGMA6−(VGMA6−VGMA7)x
3869/4583
17H
VL23
VGMA8−(VGMA8−VGMA9)x
1026/2142
37H
VL55
VGMA6−(VGMA6−VGMA7)x
3735/4583
18H
VL24
VGMA8−(VGMA8−VGMA9)x
892/2142
38H
VL56
VGMA6−(VGMA6−VGMA7)x
3571/4583
19H
VL25
VGMA8−(VGMA8−VGMA9)x
758/2142
39H
VL57
VGMA6−(VGMA6−VGMA7)x
3392/4583
1AH
VL26
VGMA8−(VGMA8−VGMA9)x
639/2142
3AH
VL58
VGMA6−(VGMA6−VGMA7)x
3184/4583
1BH
VL27
VGMA8−(VGMA8−VGMA9)x
520/2142
3BH
VL59
VGMA6−(VGMA6−VGMA7)x
2991/4583
1CH
VL28
VGMA8−(VGMA8−VGMA9)x
416/2142
3CH
VL60
VGMA6−(VGMA6−VGMA7)x
2753/4583
1DH
VL29
VGMA8−(VGMA8−VGMA9)x
312/2142
3DH
VL61
VGMA6−(VGMA6−VGMA7)x
2426/4583
1EH
VL30
VGMA8−(VGMA8−VGMA9)x
208/2142
3EH
VL62
VGMA6−(VGMA6−VGMA7)x
1875/4583
1FH
VL31
VGMA8−(VGMA8−VGMA9)x
104/2142
3FH
VL63
VGMA6
FIGURE 20. FPD33584G Lower Gamma Voltages
www.national.com
26
FPD33584
Functional Description
(Continued)
Data
Output Voltage (gamma G)
Data
Output Voltage (gamma G)
00H
VH0
VGMA1
20H
VH32
VGMA3
01H
VH1
VGMA2+(VGMA1−VGMA2)x
6027/6667
21H
VH33
VGMA4+(VGMA3−VGMA4)x
1500/1604
02H
VH2
VGMA2+(VGMA1−VGMA2)x
5432/6667
22H
VH34
VGMA4+(VGMA3−VGMA4)x
1396/1604
03H
VH3
VGMA2+(VGMA1−VGMA2)x
4837/6667
23H
VH35
VGMA4+(VGMA3−VGMA4)x
1307/1604
04H
VH4
VGMA2+(VGMA1−VGMA2)x
4257/6667
24H
VH36
VGMA4+(VGMA3−VGMA4)x
1218/1604
05H
VH5
VGMA2+(VGMA1−VGMA2)x
3692/6667
25H
VH37
VGMA4+(VGMA3−VGMA4)x
1114/1604
06H
VH6
VGMA2+(VGMA1−VGMA2)x
3186/6667
26H
VH38
VGMA4+(VGMA3−VGMA4)x
1010/1604
07H
VH7
VGMA2+(VGMA1−VGMA2)x
2769/6667
27H
VH39
VGMA4+(VGMA3−VGMA4)x
906/1604
08H
VH8
VGMA2+(VGMA1−VGMA2)x
2352/6667
28H
VH40
VGMA4+(VGMA3−VGMA4)x
817/1604
09H
VH9
VGMA2+(VGMA1−VGMA2)x
1920/6667
29H
VH41
VGMA4+(VGMA3−VGMA4)x
713/1604
0AH
VH10
VGMA2+(VGMA1−VGMA2)x
1533/6667
2AH
VH42
VGMA4+(VGMA3−VGMA4)x
624/1604
0BH
VH11
VGMA2+(VGMA1−VGMA2)x
1220/6667
2BH
VH43
VGMA4+(VGMA3−VGMA4)x
520/1604
0CH
VH12
VGMA2+(VGMA1−VGMA2)x
937/6667
2CH
VH44
VGMA4+(VGMA3−VGMA4)x
431/1604
0DH
VH13
VGMA2+(VGMA1−VGMA2)x
684/6667
2DH
VH45
VGMA4+(VGMA3−VGMA4)x
327/1604
0EH
VH14
VGMA2+(VGMA1−VGMA2)x
431/6667
2EH
VH46
VGMA4+(VGMA3−VGMA4)x
208/1604
0FH
VH15
VGMA2+(VGMA1−VGMA2)x
208/6667
2FH
VH47
VGMA4+(VGMA3−VGMA4)x
104/1604
10H
VH16
VGMA2
30H
VH48
VGMA4
11H
VH17
VGMA3+(VGMA2−VGMA3)x
1949/2142
31H
VH49
VGMA5+(VGMA4−VGMA5)x
4479/4583
12H
VH18
VGMA3+(VGMA2−VGMA3)x
1756/2142
32H
VH50
VGMA5+(VGMA4−VGMA5)x
4360/4583
13H
VH19
VGMA3+(VGMA2−VGMA3)x
1592/2142
33H
VH51
VGMA5+(VGMA4−VGMA5)x
4241/4583
14H
VH20
VGMA3+(VGMA2−VGMA3)x
1443/2142
34H
VH52
VGMA5+(VGMA4−VGMA5)x
4122/4583
15H
VH21
VGMA3+(VGMA2−VGMA3)x
1294/2142
35H
VH53
VGMA5+(VGMA4−VGMA5)x
4003/4583
16H
VH22
VGMA3+(VGMA2−VGMA3)x
1160/2142
36H
VH54
VGMA5+(VGMA4−VGMA5)x
3869/4583
17H
VH23
VGMA3+(VGMA2−VGMA3)x
1026/2142
37H
VH55
VGMA5+(VGMA4−VGMA5)x
3735/4853
18H
VH24
VGMA3+(VGMA2−VGMA3)x
892/2142
38H
VH56
VGMA5+(VGMA4−VGMA5)x
3571/4583
19H
VH25
VGMA3+(VGMA2−VGMA3)x
758/2142
39H
VH57
VGMA5+(VGMA4−VGMA5)x
3392/4583
1AH
VH26
VGMA3+(VGMA2−VGMA3)x
639/2142
3AH
VH58
VGMA5+(VGMA4−VGMA5)x
3184/4583
1BH
VH27
VGMA3+(VGMA2−VGMA3)x
520/2142
3BH
VH59
VGMA5+(VGMA4−VGMA5)x
2991/4583
1CH
VH28
VGMA3+(VGMA2−VGMA3)x
416/2142
3CH
VH60
VGMA5+(VGMA4−VGMA5)x
2753/4583
1DH
VH29
VGMA3+(VGMA2−VGMA3)x
312/2142
3DH
VH61
VGMA5+(VGMA4−VGMA5)x
2426/4583
1EH
VH30
VGMA3+(VGMA2−VGMA3)x
208/2142
3EH
VH62
VGMA5+(VGMA4−VGMA5)x
1875/4583
1FH
VH31
VGMA3+(VGMA2−VGMA3)x
104/2142
3FH
VH63
VGMA5
FIGURE 21. FPD33584G Upper Gamma Voltages
27
www.national.com
FPD33584
Functional Description
(Continued)
R
A (Ω)
B (Ω)
C (Ω)
D (Ω)
F (Ω)
G (Ω)
R
A (Ω)
B (Ω)
C (Ω)
D (Ω)
F (Ω)
G (Ω)
Rx1
1830
402
800
923
923
640
Rx33
104
134
100
119
119
104
Rx2
1027
402
750
774
774
595
Rx34
104
134
100
119
119
104
Rx3
739
402
700
610
610
595
Rx35
104
134
100
119
119
89
Rx4
625
402
650
610
610
580
Rx36
104
134
100
119
119
89
Rx5
521
402
600
461
461
565
Rx37
104
134
100
104
104
104
Rx6
417
402
550
461
461
506
Rx38
104
134
100
104
104
104
Rx7
417
402
550
461
461
417
Rx39
104
134
100
104
104
104
Rx8
313
402
500
313
313
417
Rx40
104
134
100
104
104
89
Rx9
313
402
500
313
313
432
Rx41
104
134
100
104
104
104
Rx10
208
402
400
268
268
387
Rx42
104
134
100
119
119
89
Rx11
208
402
400
268
268
313
Rx43
104
134
100
119
119
104
Rx12
149
402
350
223
223
283
Rx44
119
134
100
119
119
89
Rx13
149
357
350
223
223
253
Rx45
119
134
100
119
119
104
Rx14
134
357
350
193
193
253
Rx46
119
134
100
119
119
119
Rx15
134
313
300
179
179
223
Rx47
119
149
100
119
119
104
Rx16
119
298
300
179
179
208
Rx48
119
149
100
119
119
104
Rx17
119
268
300
164
164
193
Rx49
119
164
100
119
119
104
Rx18
119
268
250
149
149
193
Rx50
119
179
100
134
134
119
Rx19
119
268
250
149
149
164
Rx51
134
179
100
149
149
119
Rx20
119
253
250
149
149
149
Rx52
134
193
100
149
149
119
Rx21
104
238
200
134
134
149
Rx53
149
193
100
164
164
119
Rx22
104
223
200
134
134
134
Rx54
149
208
150
179
179
134
Rx23
104
208
200
134
134
134
Rx55
149
208
150
179
179
134
Rx24
104
208
150
134
134
134
Rx56
149
238
150
179
179
164
Rx25
104
193
150
134
134
134
Rx57
193
238
200
223
223
179
Rx26
104
193
150
119
119
119
Rx58
223
253
200
238
238
208
Rx27
104
179
150
119
119
119
Rx59
253
253
250
268
268
193
Rx28
104
179
100
119
119
104
Rx60
313
268
250
313
313
238
Rx29
104
164
100
119
119
104
Rx61
521
268
300
461
461
327
Rx30
104
164
100
119
119
104
Rx62
714
268
500
610
610
551
Rx31
104
149
100
119
119
104
Rx63
923
268
800
1235
1235
1875
Rx32
104
149
100
119
119
104
Rtotal
14998
15005
15850
15000
15000
15002
FIGURE 22. FPD33584 R-DAC Resistance Values
www.national.com
28
FPD33584
Functional Description
(Continued)
INPUTS
OUTPUTS
optional
RPI2
Y384
optional
RPIO2
Y383
DIO2
Y382
D22P
D22N
.
D21P
.
D21N
.
D20P
.
D20N
.
D12P
.
D12N
.
D11P
.
D11N
.
D10P
.
D10N
.
VDD1
.
.
.
optional
VGMA9
.
optional
VGMA8
.
optional
VGMA7
.
FPD33584
SHL
VGMA10
VGMA6
VDD2
VSS2
.
.
.
VGMA5
.
optional
VGMA4
.
optional
VGMA3
.
optional
VGMA2
.
VGMA1
.
VSS1
.
optional
CLKP
.
CLKN
.
CLK1
.
POL
.
DATPOL
.
D02P
.
D02N
.
D01P
.
D01N
.
D00P
.
D00N
.
DIO1
Y3
optional
RPO1
Y2
optional
RPI1
Y1
Note: This figure represents a FPD33584 die oriented pad side up.
FIGURE 23. FPD33584 I/O Configuration
29
www.national.com
FPD33584 Low Power, Low EMI, TFT-LCD Column Driver with RSDS Inputs, 64 Grayshades, and
384 Outputs for XGA/SXGA Applications
Ordering Information
Part Number
Gamma Curve
Custom Package #
Package
Suffix
Package
Type
FPD33584
A, B, C, D, F, G
XX
CT
TCP
FPD33584
A, B, C, D, F, G
XX
CF
COF
Note 12: Custom Package # is assigned by National Semiconductor for each custom TCP or COF design
LIFE SUPPORT POLICY
NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL
COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein:
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
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.
National Semiconductor
Americas Customer
Support Center
Email: [email protected]
Tel: 1-800-272-9959
www.national.com
National Semiconductor
Europe Customer Support Center
Fax: +49 (0) 180-530 85 86
Email: [email protected]
Deutsch Tel: +49 (0) 69 9508 6208
English Tel: +44 (0) 870 24 0 2171
Français Tel: +33 (0) 1 41 91 8790
2. A critical component is 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.
National Semiconductor
Asia Pacific Customer
Support Center
Fax: 65-6250 4466
Email: [email protected]
Tel: 65-6254 4466
National Semiconductor
Japan Customer Support Center
Fax: 81-3-5639-7507
Email: [email protected]
Tel: 81-3-5639-7560
National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.