Allegro A6276ELWTR-T 16-bit serial-input, constant current latched led driv er Datasheet

Data Sheet
26185.201E
6276
16-BIT SERIAL-INPUT, CONSTANTCURRENT LATCHED LED DRIVER
A6276ELW
24
LOG IC
S UP P LY
23
R E XT
22
S E R IAL
DAT A OUT
21
OUT P UT
E NAB LE
20
OUT 15
6
19
OUT 14
OUT 2
7
18
OUT 13
OUT 3
8
17
OUT 12
OUT 4
9
16
OUT 11
OUT 5
10
15
OUT 10
OUT 6
11
14
OUT 9
OUT 7
12
13
OUT 8
V DD
G R OUND
1
S E R IAL
DAT A IN
2
C LOC K
3
CK
LAT C H
E NAB LE
4
L
OUT 0
5
OUT 1
IO
R E G ULATOR
OE
R E G IS TE R
LAT C HE S
Dwg. P P -029-11
Note that three packages offered are electrically
identical and share a common terminal number assignment.
ABSOLUTE MAXIMUM RATINGS
Supply Voltage, VDD ....................... 7.0 V
Output Voltage Range,
VO ............................. -0.5 V to +17 V
Output Current, IO ........................ 90 mA
Ground Current, IGND .............. 1475 mA
Input Voltage Range,
VI .................... -0.4 V to VDD + 0.4 V
Package Power Dissipation,
PD ..................................... See Graph
Operating Temperature Range,
TA ............................. -40°C to +85°C
Storage Temperature Range,
TS ........................... -55°C to +150°C
Caution: These CMOS devices have input static
protection (Class 2) but are still susceptible
to damage if exposed to extremely high static
electrical charges.
The A6276 is specifically designed for LED-display applications.
Each BiCMOS device includes a 16-bit CMOS shift register, accompanying data latches, and 16 npn constant-current sink drivers. Except
for package style and allowable package power dissipation, the device
options are identical.
The CMOS shift register and latches allow direct interfacing with
microprocessor-based systems. With a 5 V logic supply, typical serial
data-input rates are up to 20 MHz. The LED drive current is determined by the user’s selection of a single resistor. A CMOS serial data
output permits cascade connections in applications requiring additional
drive lines. For inter-digit blanking, all output drivers can be disabled
with an ENABLE input high. Similar 8-bit devices are available as the
A6275EA and A6275ELW.
Three package styles are provided: through-hole DIP (suffix A),
surface-mount SOIC (suffix LW) and TSSOP with exposed thermal pad
(suffix LP). Under normal applications, a copper lead frame and low
logic-power dissipation allow the dual in-line package to sink maximum rated current through all outputs continuously over the operating
temperature range (90 mA, 0.75 V drop, +85°C).
FEATURES
■
■
■
■
■
To 90 mA Constant-Current Outputs
Under-Voltage Lockout
Low-Power CMOS Logic and Latches
High Data Input Rate
Functional Replacement for TB62706BN/BF
Selection Guide
Part Number Pb-free*
Package
Packing
Ambient
Temperature (°C)
A6276EA-T
Yes
24-pin DIP
15 per tube
–40 to 85
A6276ELP-T
Yes
24-pin TSSOP
62 per tube
–40 to 85
A6276ELPTR-T
Yes
24-pin TSSOP 4000 per reel
–40 to 85
A6276ELW-T
Yes
24-pin SOICW
31 per tube
–40 to 85
A6276ELWTR-T
Yes
24-pin SOICW 1000 per reel
–40 to 85
A6276SLW-T
Yes
24-pin SOICW
31 per tube
–20 to 85
A6276SLWTR-T
Yes
24-pin SOICW 1000 per reel
–20 to 85
*Pb-based variants are being phased out of the product line. The variants cited in this
footnote are in production but have been determined to be NOT FOR NEW DESIGN.
This classification indicates that sale of this device is currently restricted to existing
customer applications. The variants should not be purchased for new design applications because obsolescence in the near future is probable. Samples are no longer
available. Status change: May 1, 2006. These variants include:A6276EA, A6276ELW,
A6276ELWTR, A6276SA, A6276SLW, and A6276SLWTR.
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
ALLOWABLE PACKAGE POWER DISSIPATION IN WATTS
4.0
3.5
24-PIN TSSOP*, R θJA = 32°C/W
3.0
24-PIN DIP, RθJA = 50°C/W
2.5
24-LEAD SOIC, RθJA = 85°C/W
2.0
1.5
1.0
0.5
0
25
50
75
100
125
AMBIENT TEMPERATURE IN ° C
150
*Mounted on single-layer, two-sided PCB, with 3.8 in2 copper each side;
additional information on Allegro Web site
FUNCTIONAL BLOCK DIAGRAM
VDD
UVLO
CLOCK
SERIAL
DATA IN
SERIAL-PARALLEL SHIFT REGISTER
LATCH
ENABLE
LATCHES
LOGIC
SUPPLY
SERIAL
DATA OUT
OUTPUT ENABLE
(ACTIVE LOW)
GROUND
MOS
BIPOLAR
IO
REGULATOR
OUT 0 OUT 1 OUT 2
2
OUT N
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
Copyright © 2000, 2003 Allegro MicroSystems, Inc.
R
EXT
Dwg. FP-013-3
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
VDD
VDD
IN
IN
Dwg. EP-010-12
Dwg. EP-010-11
OUTPUT ENABLE (active low)
LATCH ENABLE
VDD
VDD
OUT
IN
Dwg. EP-063-6
Dwg. EP-010-13
CLOCK and SERIAL DATA IN
SERIAL DATA OUT
TRUTH TABLE
Serial
Shift Register Contents
Data Clock
Input Input I1 I2 I3 ... IN-1 IN
Serial Latch
Data Enable
Output Input
Latch Contents
I1
I2
I3
...
IN-1 IN
Output
Enable
Input
Output Contents
I1 I2 I3 ... IN-1 IN
H
H
R1 R2 ...
RN-2 RN-1
RN-1
L
L
R1 R2 ...
RN-2 RN-1
RN-1
X
R1 R2 R3 ...
RN-1 RN
RN
X
X
X
L
R1 R2 R3 ...
RN-1 RN
PN
H
P1 P2 P3 ...
PN-1 PN
L
P1 P2 P3 ... PN-1 PN
X
X
H
H H H ... H
X
X
...
P1 P2 P3 ...
L = Low Logic (Voltage) Level
www.allegromicro.com
X
PN-1 PN
H = High Logic (Voltage) Level
X
X
...
X = Irrelevant
X
P = Present State
H
R = Previous State
3
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
ELECTRICAL CHARACTERISTICS at TA = +25°C, VDD = 5 V (unless otherwise noted).
Limits
Characteristic
Symbol
Supply Voltage Range
VDD
Under-Voltage Lockout
VDD(UV)
Output Current
(any single output)
IO
Output Current Matching
∆IO
(difference between any
two outputs at same VCE)
Test Conditions
Min.
Typ.
Max.
Unit
Operating
4.5
5.0
5.5
V
VDD = 0 → 5 V
3.4
–
4.0
V
VCE = 0.7 V, REXT = 250 Ω
64.2
75.5
86.8
mA
VCE = 0.7 V, REXT = 470 Ω
34.1
40.0
45.9
mA
REXT = 250 Ω
–
±1.5
±6.0
%
REXT = 470 Ω
–
±1.5
±6.0
%
–
1.0
5.0
µA
0.4 V ≤ VCE(A) = VCE(B) ≤ 0.7 V:
Output Leakage Current
ICEX
Logic Input Voltage
VIH
0.7VDD
–
VDD
V
VIL
GND
–
0.3VDD
V
SERIAL DATA OUT
Voltage
Input Resistance
Supply Current
VOH = 15 V
VOL
IOL = 500 µA
–
–
0.4
V
VOH
IOH = -500 µA
4.6
–
–
V
ENABLE Input, Pull Up
150
300
600
kΩ
LATCH Input, Pull Down
100
200
400
kΩ
REXT = open, VOE = 5 V
–
0.8
1.4
mA
REXT = 470 Ω, VOE = 5 V
3.5
6.0
8.0
mA
REXT = 250 Ω, VOE = 5 V
6.5
11
15
mA
REXT = 470 Ω, VOE = 0 V
7.0
13
20
mA
REXT = 250 Ω, VOE = 0 V
10
22
32
mA
RI
IDD(OFF)
IDD(ON)
Typical Data is at VDD = 5 V and is for design information only.
4
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
SWITCHING CHARACTERISTICS at TA = 25°C, VDD = VIH = 5 V, VCE = 0.4 V, VIL = 0 V,
REXT = 470 Ω, IO = 40 mA, VL = 3 V, RL = 65 Ω, CL = 10.5 pF.
Limits
Characteristic
Propagation Delay Time
Propagation Delay Time
Symbol
tpHL
tpLH
Test Conditions
Min.
Typ.
Max.
Unit
CLOCK-OUTn
–
350
1000
ns
LATCH-OUTn
–
350
1000
ns
ENABLE-OUTn
–
350
1000
ns
CLOCK-SERIAL DATA OUT
–
40
–
ns
CLOCK-OUTn
–
300
1000
ns
LATCH-OUTn
–
300
1000
ns
ENABLE-OUTn
–
300
1000
ns
CLOCK-SERIAL DATA OUT
–
40
–
ns
Output Fall Time
tf
90% to 10% voltage
150
350
1000
ns
Output Rise Time
tr
10% to 90% voltage
150
300
600
ns
Min.
Typ.
Max.
Unit
RECOMMENDED OPERATING CONDITIONS
Characteristic
Symbol
Supply Voltage
VDD
4.5
5.0
5.5
V
Output Voltage
VO
–
1.0
4.0
V
Output Current
IO
Continuous, any one output
–
–
90
mA
IOH
SERIAL DATA OUT
–
–
-1.0
mA
IOL
SERIAL DATA OUT
–
–
1.0
mA
VIH
0.7VDD
–
VDD + 0.3
V
VIL
-0.3
–
0.3VDD
V
–
–
10
MHz
Logic Input Voltage
Clock Frequency
www.allegromicro.com
fCK
Conditions
Cascade operation
5
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
TIMING REQUIREMENTS and SPECIFICATIONS
(Logic Levels are VDD and Ground)
C
50%
CLOCK
A
SERIAL
DATA IN
B
DATA
50%
tp
SERIAL
DATA OUT
DATA
50%
D
E
LATCH
ENABLE
OUTPUT
ENABLE
50%
LOW = ALL OUTPUTS ENABLED
tp
HIGH = OUTPUT OFF
DATA
50%
OUT N
LOW = OUTPUT ON
Dwg. WP-029-1
HIGH = ALL OUTPUTS DISABLED (BLANKED)
OUTPUT
ENABLE
50%
t pLH
F
tf
tr
90%
OUT N
t pHL
DATA
50%
10%
Dwg. WP-030-1A
Serial data present at the input is transferred to the shift
register on the logic 0-to-logic 1 transition of the CLOCK input
pulse. On succeeding CLOCK pulses, the registers shift data information towards the SERIAL DATA OUTPUT. The serial data
must appear at the input prior to the rising edge of the CLOCK
input waveform.
Information present at any register is transferred to the
respective latch when the LATCH ENABLE is high (serial-toparallel conversion). The latches continue to accept new data as
6
A. Data Active Time Before Clock Pulse
(Data Set-Up Time), tsu(D) ............................. 50 ns
B. Data Active Time After Clock Pulse
(Data Hold Time), th(D) ................................. 20 ns
C. Clock Pulse Width, tw(CK) .................................. 50 ns
D. Time Between Clock Activation
and Latch Enable, tsu(L) ............................... 100 ns
E. Latch Enable Pulse Width, tw(L) ...................... 100 ns
F. Output Enable Pulse Width, tw(OE) ................... 4.5 μs
NOTE: Timing is representative of a 10 MHz clock. Significantly higher speeds are attainable.
Max. Clock Transition Time, tr or tf ....................... 10 μs
long as the LATCH ENABLE is held high. Applications where
the latches are bypassed (LATCH ENABLE tied high) will
require that the OUTPUT ENABLE input be high during serial
data entry.
When the OUTPUT ENABLE input is high, the output sink
drivers are disabled (OFF). The information stored in the latches
is not affected by the OUTPUT ENABLE input. With the OUTPUT ENABLE input low, the outputs are controlled by the state
of their respective latches.
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
ALLOWABLE OUTPUT CURRENT AS A FUNCTION OF DUTY CYCLE
A6276EA
A6276ELW
100
100
80
VCE = 2 V
VCE = 3 V
60
VCE = 4 V
40
TA = +25°C
VDD = 5 V
RθJA = 50°C/W
20
VCE = 0.7 V
ALLOWABLE OUTPUT CURRENT IN mA/BIT
ALLOWABLE OUTPUT CURRENT IN mA/BIT
VCE = 1 V
VCE = 1 V
80
VCE = 2 V
60
VCE = 3 V
VCE = 4 V
40
TA = +25°C
VDD = 5 V
RθJA = 75°C/W
20
0
0
0
20
40
60
80
0
100
20
40
60
80
Dwg. GP-062-6
Dwg. GP-062-11
100
100
VCE = 1 V
80
VCE = 2 V
VCE = 3 V
60
VCE = 4 V
40
TA = +50°C
VDD = 5 V
RθJA = 50°C/W
20
0
0
20
40
60
80
100
DUTY CYCLE IN PER CENT
80
VCE = 1 V
VCE = 2 V
60
VCE = 3 V
40
VCE = 4 V
TA = +50°C
VDD = 5 V
RθJA = 75°C/W
20
0
0
20
40
60
80
100
DUTY CYCLE IN PER CENT
Dwg. GP-062-10
www.allegromicro.com
VCE = 0.7 V
ALLOWABLE OUTPUT CURRENT IN mA/BIT
ALLOWABLE OUTPUT CURRENT IN mA/BIT
100
DUTY CYCLE IN PER CENT
DUTY CYCLE IN PER CENT
Dwg. GP-062-7
7
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
ALLOWABLE OUTPUT CURRENT AS A FUNCTION OF DUTY CYCLE (cont.)
A6276EA
A6276ELW
100
100
VCE = 0.4 V
ALLOWABLE OUTPUT CURRENT IN mA/BIT
ALLOWABLE OUTPUT CURRENT IN mA/BIT
VCE = 0.7 V
VCE = 1 V
80
VCE = 2 V
60
VCE = 3 V
40
VCE = 4 V
TA = +85°C
VDD = 5 V
RθJA = 50°C/W
20
80
VCE = 0.7 V
VCE = 1 V
60
VCE = 2 V
VCE = 3 V
40
VCE = 4 V
TA = +85°C
VDD = 5 V
RθJA = 75°C/W
20
0
0
0
20
40
60
80
0
100
20
40
DUTY CYCLE IN PER CENT
TYPICAL CHARACTERISTICS
OUTPUT CURRENT IN mA/BIT
60
40
TA = +25°C
REXT = 500 Ω
20
0
0.5
1.0
1.5
2.0
VCE IN VOLTS
Dwg. GP-063
8
80
100
Dwg. GP-062-8
Dwg. GP-062-9
0
60
DUTY CYCLE IN PER CENT
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
ALLOWABLE OUTPUT CURRENT AS A FUNCTION OF DUTY CYCLE (cont.)
A6276ELP
100
ALLOWABLE OUTPUT CURRENT IN mA/BIT
VCE = 1 V
80
VCE = 2 V
VCE = 3 V
60
VCE = 4 V
40
TA = +25ı°C
VDD = 5 V
RˇθJA = 40ı°C/W
20
0
0
20
40
60
80
100
DUTY CYCLE IN PER CENT
100
ALLOWABLE OUTPUT CURRENT IN mA/BIT
VCE = 1 V
80
VCE = 2 V
VCE = 3 V
60
VCE = 4 V
40
TA = +50ı°C
VDD = 5 V
RˇθJA = 40ı°C/W
20
0
0
20
40
60
80
100
DUTY CYCLE IN PER CENT
9
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
TERMINAL DESCRIPTION
Terminal No.
Terminal Name
Function
1
GND
Reference terminal for control logic.
2
SERIAL DATA IN
Serial-data input to the shift-register.
3
CLOCK
4
LATCH ENABLE
5-20
OUT0-15
21
OUTPUT ENABLE
22
SERIAL DATA OUT
23
REXT
24
SUPPLY
Clock input terminal for data shift on rising edge.
Data strobe input terminal; serial data is latched with high-level input.
The 16 current-sinking output terminals.
When (active) low, the output drivers are enabled; when high, all output
drivers are turned OFF (blanked).
CMOS serial-data output to the following shift-register.
An external resistor at this terminal establishes the output current for all sink
drivers.
(VDD) The logic supply voltage (typically 5 V).
The products described here are manufactured under one or more
U.S. patents or U.S. patents pending.
Allegro MicroSystems, Inc. reserves the right to make, from time to
time, such departures from the detail specifications as may be
required to permit improvements in the performance, reliability, or
manufacturability of its products. Before placing an order, the user is
cautioned to verify that the information being relied upon is current.
Allegro products are not authorized for use as critical components
in life-support devices or systems without express written approval.
The information included herein is believed to be accurate and
reliable. However, Allegro MicroSystems, Inc. assumes no responsibility for its use; nor for any infringement of patents or other rights of
third parties which may result from its use.
www.allegromicro.com
10
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
Applications Information
The load current per bit (IO) is set by the external resistor
(REXT) as shown in the figure below.
diode (VZ), or a series string of diodes (approximately
0.7 V per diode) for a group of drivers. If the available
voltage source will cause unacceptable dissipation and
series resistors or diode(s) are undesirable, a regulator
such as the Sanken Series SAI or Series SI can be used to
provide supply voltages as low as 3.3 V.
For reference, typical LED forward voltages are:
White
3.5 – 4.0 V
Blue
3.0 – 4.0 V
Green
1.8 – 2.2 V
Yellow
2.0 – 2.1 V
Amber
1.9 – 2.65 V
Red
1.6 – 2.25 V
Infrared
1.2 – 1.5 V
Package Power Dissipation (PD). The maximum allowable package power dissipation is determined as
PD(max) = (150 - TA)/RθJA.
The actual package power dissipation is
PD(act) = DC • (VCE • IO • 16) + (VDD • IDD) ,
where DC is the duty cycle.
Pattern Layout. This device has a common logicground and power-ground terminal. If ground pattern layout contains large common-mode resistance, and the voltage between the system ground and the LATCH ENABLE
or CLOCK terminals exceeds 2.5 V (because of switching
noise), these devices may not operate correctly.
When the load supply voltage is greater than 3 V to 5 V,
considering the package power dissipating limits of these
devices, or if PD(act) > PD(max), an external voltage reducer (VDROP) should be used.
Load Supply Voltage (VLED). These devices are designed to operate with driver voltage drops (VCE) of
0.4 V to 0.7 V with LED forward voltages (VF) of 1.2 V to
4.0 V. If higher voltages are dropped across the driver,
package power dissipation will be increased significantly.
To minimize package power dissipation, it is recommended to use the lowest possible load supply voltage or
to set any series dropping voltage (VDROP) as
VDROP = VLED - VF - VCE
with VDROP = Io • RDROP for a single driver, or a Zener
11
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
A6276EA
Dimensions in Inches
(controlling dimensions)
24
0.014
0.008
13
0.430
MAX
0.280
0.240
0.300
BSC
1
0.100
0.070
0.045
1.280
1.230
12
BSC
0.005
MIN
0.210
MAX
0.015
0.150
0.115
MIN
0.022
0.014
Dwg. MA-001-24 in
Dimensions in Millimeters
(for reference only)
0.355
0.204
13
24
10.92
MAX
7.11
6.10
7.62
BSC
1
1.77
1.15
6
7
2.54
32.51
31.24
BSC
12
0.13
MIN
5.33
MAX
0.39
3.81
2.93
MIN
0.558
0.356
NOTES: 1.
2.
3.
4.
Dwg. MA-001-24 mm
Exact body and lead configuration at vendor’s option within limits shown.
Lead spacing tolerance is non-cumulative
Lead thickness is measured at seating plane or below.
Supplied in standard sticks/tubes of 15 devices.
www.allegromicro.com
12
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
A6276ELW
Dimensions in Inches
(for reference only)
24
13
0.0125
0.0091
0.419
0.394
0.2992
0.2914
0.050
0.016
0.020
0.013
1
2
0.050
3
0° TO 8°
BSC
0.6141
0.5985
0.0926
0.1043
0.0040 MIN.
Dwg. MA-008-24A in
Dimensions in Millimeters
(controlling dimensions)
24
13
0.32
0.23
10.65
10.00
7.60
7.40
1.27
0.40
0.51
0.33
1
2
1.27
3
15.60
15.20
BSC
0° TO 8°
2.65
2.35
0.10 MIN.
Dwg. MA-008-24A mm
NOTES: 1. Exact body and lead configuration at vendor’s option within limits shown.
2. Lead spacing tolerance is non-cumulative.
3. Supplied in standard sticks/tubes of 31 devices or add “TR” to part number for tape and reel.
13
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
6276
16-BIT SERIAL-INPUT,
CONSTANT-CURRENT
LATCHED LED DRIVER
A6276ELP
7.9
7.7
24
.311
.303
8º
0º
A
B
0.20 .008
0.09 .004
4.5
4.3
B
.177
.169
3 .118
NOM
6.6
6.2
A
1
2
1 .039
REF
4.32 .170
NOM
0.25 .010
24X
SEATING
PLANE
0.10 [.004] C
24X
0.30 .012
0.19 .007
0.65 .026
0.40 .016
REF
SEATING PLANE
GAUGE PLANE
C
1.20 .047
MAX
0.10 [.004] M C A B
2
.079
NOM
0.75 .030
0.45 .018
.260
.244
0.15 .006
0.00 .000
0.45 .018
NOM
24
0.65 .026
NOM
3
.118
NOM
C
5.8 .228
NOM
Preliminary dimensions, for reference only
(reference JEDEC MO-153 ADT)
Dimensions in millimeters
U.S. Customary dimensions (in.) in brackets, for reference only
Dimensions exclusive of mold flash, gate burrs, and dambar protrusions
Exact case and lead configuration at supplier discretion within limits shown
A Terminal #1 mark area
B Exposed thermal pad (bottom surface) U.S. Customary dimensions controlling
C Reference land pattern layout (reference IPC7351
TSOP65P640-24M); adjust as necessary to meet
application process requirements and PCB layout
tolerances; when mounting on a multilayer PCB, thermal
vias at the exposed thermal pad land can improve thermal
dissipation (reference EIA/JEDEC Standard JESD51-5)
1
2
4.32 .170
NOM
14
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
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