ETC V6108

EM MICROELECTRONIC-MARIN SA
V6108
40 Segment Static LCD Driver
Features
Typical Operating Configuration
n Serial data input / output
n Low dynamic current, 5 µA max.
n Low standby current, 1 µA max.
n Separate input and display voltages
n Wide power supply range:
VDD (logic) 2 to 8 V, VLCD (display) VDD to 12 V
n On-chip latches separate control and display sections
n Drives up to 40 LCD segments in direct drive
n Crossfree cascadable
n Schmitt Trigger on the inputs
n 30 ns (typ.) glitch filter on every input
n High noise immunity
n Segment outputs short circuit protected
n LCD blanking function
n - 40 to +85 OC temperature range
n On request extended temperature range,
- 40 to +125 OC
n QFP52 and TAB packages
SEG 41- 80
V6108
Description
V6108
STR
The V 6108 is a CMOS integrated circuit that drives LCD.
The circuit drives up to 40 LCD segments from a serial clocked
input. It has a serial output for cascading to further drives. The
serially clocked data is parallel loaded into 40 latches under
control of the strobe pin. The latched data determines which
segments are ON or OFF. Any segment output can be used to
drive a backplane. A blank function is provided to clear the
display.
QFP52
Applications
n
n
n
n
n
n
n
Balances and scales
Automotive displays
Utility meters
Large displays
Pagers
Portable, battery operated products
Telephones
1
V6108
1
V6108
Handling Procedures
Absolute Maximum Ratings
This device has built-in protection against high static voltages
or electric fields; however, anti-static precautions must be taken
as for any other CMOS component. Unless otherwise specified,
proper operation can only occur when all terminal voltages are
kept within the supply voltage range. Unused inputs must
always be tied to a defined logic voltage level.
-0.3V to +10V
VDD
-0.3V to +14V
VLCD
VLOGIC -0.3V to VDD+0.3V
VDISP
TSTO
PMAX
VSmax
TS
Operating Conditions
VDD to VLCD + 0.3V
o
- 65 to +150 C
100 mW
Parameter
Symbol Min. Typ. Max. Units
Operating temperature
Logic supply voltage
LCD supply voltage
1000V
o
250 C x 10 s
1)
VLCD has to be higher or equal to VDD
Table 1
Stresses above these listed maximum ratings may cause
permanent damage to the device. Exposure beyond specified
operating conditions may affect device reliability or cause
malfunction.
1)
TA
VDD
-40
2.0
VDD
+125
8
12
C
V
V
O
1)
The maximum operating temperature is confirmed Table 2
by sampling at initial device qualification. In
production, all devices are tested at +85 oC. On
o
request devices tested at+125 C can be supplied.
Electrical Characteristics
IDD
ILCD
IDD
ILCD
1)
See note
1)
See note
See note 1)2)
See note 1)3)
VIL
VIH
IIL
0.1
0.1
1
1
0.6
5
75
55
0.8
VIN =VSS or VIN =VDD
3.8
3.5
1
VOH
VOL
IH = 100 µA VDD = VLCD = 4.5 V
IL = 100 µA VDD = VLCD = 4.5 V
VDD - 100
VSH
VSL
ISC
IH = 20 µ A, VDD = VLCD = 4.5 V
IL = 20 µA, VDD = VLCD = 4.5 V
VLCD- 100
VSS + 100
VSS + 100
Tested with VIL= VSS, VIH= VDD
Tested with fCL = 100 kHz, FDI= 50 kHz, 50 pF on each segment
3)
Tested with fFL = 64 Hz, fCL= 0 Hz, 50 pF on each segment
µA
µA
µA
µA
V
V
µA
mV
mV
mV
mV
mA
Table 3
1)
2)
Timing Characteristics
VDD = 5V ± 10%, VLCD = 12 V and TA = -40 to +85oC, unless otherwise specified
Parameter
Clock high pulse width
Clock low pulse width
Clock and FR rise time
Clock and FR fall time
Data input setup time
Data input hold time
Data output propagation
CLK falling to STR rising
STR falling to CLK falling
STR pulse width
FR frequency
Delay S1 - S40 fall time
Delay S1 - S40 rise time
1)
Recommended frame frequency.
Symbol Test Conditions
tCH
tCL
tCR
tCF
tDS
tDH
tPD
tP
tD
tSTR
fFR
tSF
tSR
Min.
Typ.
Max.
500
500
250
0
CLOAD = 50 pF
2)
50
250
200
Maximum test frequency.
2
500
500
600
64 Hz
0.5
2.9
800
1)
2)
1
1
5
Units
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
MHz
µs
µs
Table 4
V6108
tCR
3
V6108
4
V6108
100
90
80
70
60
50
40
30
20
10
0
3.5
3
4
5
4.5
5.5
6
6.5
VDD
CLK
Shift Register
40 Bits
DI
7.5
8
8.5
9
9.5
DO
10.5
11
R
VSS
40 Latches
Functional Description
Table 5
Supply Voltages VLCD, VDD, VSS
AC
FR
10
S1...S40
VLCD
VDD
FR
DI
DO
CLK
STR
STR
VDD is the positive supply line for the logic and VLCD for the
display signals. VLCD has to be equal or higher than VDD. All
voltages are specified relative to VSS.
LS
2)
LS
Data Input / Output (DI / DO)
2)
The data input pin (Dl) accepts serial data from the data source.
The data is clocked in a rate determined by the clock input
frequency (CLK). A logic "1" on Dl corresponds to a visible
segment when the backplane is driven by a signal
corresponding to logic "0". The data at DO is equal to
the data at Dl
delayed
by 40 clock periods.
In
VSS
SEG
F = Noise Filter
2)
LS = Voltage Level Shifter
1)
7
SEG 40
Fig. 8
5
V6108
Segment Driver
order to cascade devices the DO of one chip must be
connected to Dl of the following chip (see Fig. 1).
The number of segment drivers available on the chip is 40.
Each segment driver can be used as backplane-driver. If two or
more drivers are connected together, care must be taken to
ensure the drivers do not cause circuit malfunction by driving
one against the other.
CLK Input
The clock input pin (CLK) is used to clock the Dl serial data into
the 40-bit shift register. Loading, shifting and outputting of the
data occurs at the falling edge of this clock (see Fig. 3). When
cascading devices, all CLK lines should be tied together.
FR Input
This input controls the segment output switching frequency
according to Table 6. It must be connected to an external clock
signal. When cascading devices, their FR inputs may all be
connected to a common signal.
STR Input
The strobe input pin (STR) is used to latch the input data shifted
into the 40-bit shift register. The latched data is held for display.
A logic "1" on the STR input transfers the data contained in the
shift register cells to the corresponding latches. The latches
remain open during the whole time STR remains at logic "1".
When cascading devices the STR lines should all be connected.
Segment Switching Table
Latched Signal (DI)
0 = VIL 1 = VIH
R Input
0
0
1
1
When R is active (high), the display is blanked: all segment
outputs are tied to VSS. R does not clear the information in the
latches.
Signal
FR
0
1
0
1
Segment Voltage
0 = VSS 1 = VLCD
0
1
1
0
Table 6
V 6108
V 6108
6
V6108
S13
S12
S11
S10
S9
S8
S7
S6
S5
S4
S3
S2
S1
R
FR
STR
CLK
DO
VLCD
VSS
VDD
S28
S29
S30
S31
S32
S33
S34
S35
S36
S37
S38
S39
S40
S13
S12
S11
S10
S9
S8
S7
S6
S5
S4
S3
S2
S1
V6108
S28
S29
S30
S31
S32
S33
S34
S35
S36
S37
S38
S39
S40
R
FR
STR
CLK
DO
VLCD
VSS
VDD
V6108
Package and Ordering Information
The V 6108 is available in the following packages:
QFP52, pin plastic package
TAB, tape automated bonding
Chip form
When ordering, please specify the complete part number
and package.
V6108 52F
V6108 TAB
V6108 Chip *
* on request
EM Microelectronic-Marin SA cannot assume responsibility for use of any circuitry described other than circuitry entirely embodied in
an EM Microelectronic-Marin product. EM Microelectronic-Marin reserves the right to change circuitry and specifications without
notice at any time. You are strongly urged to ensure that the information given has not been superseded by a more up-to-date version.
 1997 EM Microelectronic-Marin SA, 09/97, Rev. B/157
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