TI TLC5510AINSR

TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
D
D
features
D
D
D
D
D
Analog Input Range
– TLC5510 . . . 2 V Full Scale
– TLC5510A . . . 4 V Full Scale
8-Bit Resolution
Integral Linearity Error
± 0.75 LSB Max (25°C)
± 1 LSB Max (– 20°C to 75°C)
Differential Linearity Error
± 0.5 LSB Max (25°C)
± 0.75 LSB Max (– 20°C to 75°C)
Maximum Conversion Rate
20 Mega-Samples per Second
(MSPS) Max
D
5-V Single-Supply Operation
Low Power Consumption
TLC5510 . . . 127.5 mW Typ
TLC5510A . . . 150 mW Typ
(includes reference resistor dissipation)
TLC5510 is Interchangeable With Sony
CXD1175
applications
D
D
D
D
D
Digital TV
Medical Imaging
Video Conferencing
High-Speed Data Conversion
QAM Demodulators
PW OR NS PACKAGE†
(TOP VIEW)
description
The TLC5510 and TLC5510A are CMOS, 8-bit, 20
MSPS analog-to-digital converters (ADCs) that
utilize a semiflash architecture. The TLC5510 and
TLC5510A operate with a single 5-V supply and
typically consume only 130 mW of power.
Included is an internal sample-and-hold circuit,
parallel outputs with high-impedance mode, and
internal reference resistors.
OE
DGND
D1(LSB)
D2
D3
D4
D5
D6
D7
D8(MSB)
VDDD
CLK
The semiflash architecture reduces power
consumption and die size compared to flash
converters. By implementing the conversion in a
2-step process, the number of comparators is
significantly reduced. The latency of the data
output valid is 2.5 clocks.
1
24
2
23
3
22
4
21
5
20
6
19
7
18
8
17
9
16
10
15
11
14
12
13
DGND
REFB
REFBS
AGND
AGND
ANALOG IN
VDDA
REFT
REFTS
VDDA
VDDA
VDDD
† Available in tape and reel only and ordered
as the shown in the Available Options table
below.
The TLC5510 uses the three internal reference
resistors to create a standard, 2-V, full-scale
conversion range using VDDA. Only external jumpers are required to implement this option and eliminates the
need for external reference resistors. The TLC5510A uses only the center internal resistor section with an
externally applied 4-V reference such that a 4-V input signal can be used. Differential linearity is 0.5 LSB at 25°C
and a maximum of 0.75 LSB over the full operating temperature range. Typical dynamic specifications include
a differential gain of 1% and differential phase of 0.7 degrees.
The TLC5510 and TLC5510A are characterized for operation from –20°C to 75°C.
AVAILABLE OPTIONS
PACKAGE
TA
– 20°C to 75°C
TSSOP (PW)
FULL SCALE
MAXIMUM FULL-SCALE
INPUT VOLTAGE
SOP (NS)
(TAPE AND REEL ONLY)
TLC5510IPW
TLC5510INSLE
2V
–
TLC5510AINSLE
4V
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
Copyright  1994 – 2003, Texas Instruments Incorporated
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of Texas Instruments
standard warranty. Production processing does not necessarily include
testing of all parameters.
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1
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
functional block diagram
Resistor
Reference
Divider
OE
REFB
270 Ω
NOM
Lower Sampling
Comparators
(4-Bit)
REFT
REFBS
Lower Encoder
(4-Bit)
D1(LSB)
D2
Lower Data
Latch
80 Ω
NOM
D3
AGND
D4
Lower Sampling
Comparators
(4-Bit)
AGND
Lower Encoder
(4-Bit)
VDDA
D5
320 Ω
NOM
REFTS
ANALOG IN
CLK
D6
Upper Data
Latch
Upper Sampling
Comparators
(4-Bit)
D7
Upper Encoder
(4-Bit)
D8(MSB)
Clock
Generator
schematics of inputs and outputs
EQUIVALENT OF ANALOG INPUT
EQUIVALENT OF EACH DIGITAL INPUT
VDDA
AGND
VDDD
D1 – D8
OE, CLK
ANALOG IN
2
VDDD
EQUIVALENT OF EACH DIGITAL OUTPUT
DGND
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DGND
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
Terminal Functions
TERMINAL
NAME
AGND
NO.
I/O
20, 21
DESCRIPTION
Analog ground
ANALOG IN
19
I
Analog input
CLK
12
I
Clock input
DGND
2, 24
D1 – D8
3 – 10
O
Digital data out. D1 = LSB, D8 = MSB
1
I
Output enable. When OE = low, data is enabled. When OE = high, D1 – D8 is in high-impedance state.
OE
VDDA
VDDD
14, 15, 18
REFB
23
REFBS
22
REFT
17
REFTS
16
Digital ground
Analog supply voltage
11, 13
Digital supply voltage
I
Reference voltage in bottom
Reference voltage in bottom. When using the TLC5510 internal voltage divider to generate a nominal 2-V
reference, REFBS is shorted to REFB (see Figure 3). When using the TLC5510A, REFBS is connected to
ground.
I
Reference voltage in top
Reference voltage in top. When using the TLC5510 internal voltage divider to generate a nominal 2-V
reference, REFTS is shorted to REFT (see Figure 3). When using the TLC5510A, REFTS is connected to
VDDA.
absolute maximum ratings†
Supply voltage, VDDA, VDDD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 V
Reference voltage input range, VREFT, VREFB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . AGND to VDDA
Analog input voltage range, VI(ANLG) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . AGND to VDDA
Digital input voltage range, VI(DGTL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DGND to VDDD
Digital output voltage range, VO(DGTL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DGND to VDDD
Operating free-air temperature range, TA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . – 20°C to 75°C
Storage temperature range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . – 55°C to 150°C
† Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and
functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not
implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
recommended operating conditions
Supply voltage
MIN
NOM
MAX
VDDA – AGND
VDDD – AGND
4.75
5
5.25
4.75
5
5.25
AGND – DGND
– 100
0
100
Reference input voltage (top), Vref(T)‡
TLC5510A
Reference input voltage (bottom), Vref(B)‡
TLC5510A
Analog input voltage range, VI(ANLG)
VREFB+2
0
VREFB
4
High-level input voltage, VIH
Low-level input voltage, VIL
4
VREFT– 4
VREFT
UNIT
V
mV
V
V
V
V
1
V
Pulse duration, clock high, tw(H) (see Figure 1)
25
ns
Pulse duration, clock low, tw(L) (see Figure 1)
25
ns
‡ The reference voltage levels for the TLC5510 are derived through an internal resistor divider between VDDA and ground and therefore are not
derived from a separate external voltage source (see the electrical characteristics and text). For the 4 V input range of the TLC5510A, the
reference voltage is externally applied across the center divider resistor.
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TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
electrical characteristics at VDD = 5 V, VREFT = 2.5 V, VREFB = 0.5 V, f(CLK) = 20 MHz, TA = 25°C (unless
otherwise noted)
digital I/O
TEST CONDITIONS†
PARAMETER
MIN
TYP
MAX
IIH
IIL
High-level input current
Low-level input current
VDD = MAX,
VDD = MAX,
VIH = VDD
VIL = 0
5
IOH
IOL
High-level output current
OE = GND,
Low-level output current
OE = GND,
VDD = MIN,
VDD = MIN,
VOH = VDD – 0.5 V
VOL = 0.4 V
IOZH
High-level high-impedance-state
output leakage current
OE = VDD,
VDD = MAX
VOH = VDD
16
IOZL
Low-level high-impedance-state
output leakage current
OE = VDD,
VDD = MIN
VOL = 0
16
5
– 1.5
UNIT
µA
mA
2.5
µA
† Conditions marked MIN or MAX are as stated in recommended operating conditions.
power
TEST CONDITIONS†
PARAMETER
IDD
Supply current
Ireff
Reference voltage current
MIN
f(CLK) = 20 MHz, National Television System Committee (NTSC)
ramp wave input, reference resistor dissipation is separate
TLC5510
TLC5510A
Vref = REFT – REFB = 2 V
Vref = REFT – REFB = 4 V
TYP
MAX
UNIT
18
27
mA
5.2
7.5
10.5
mA
10.4
15
21
mA
† Conditions marked MIN or MAX are as stated in recommended operating conditions.
static performance
TEST CONDITIONS†
PARAMETER
Self-bias (1), at REFB
Short REFB to REFBS,
REFBS
Short REFT to REFTS
Self-bias (3), at REFT
Short REFB to AGND,
Short REFT to REFTS
Rref
Reference voltage resistor
Between REFT and REFB
Ci
Analog input capacitance
VI(ANLG) = 1.5 V + 0.07 Vrms
TA = 25°C
f(CLK) = 20 MHz,,
VI = 0.5 V to 2.5 V
TA = – 20°C to 75°C
Self-bias (2), REFT – REFB
TLC5510
Integral nonlinearity (INL)
EFS
Full-scale error
0.65
1.9
2.02
2.15
2.18
2.29
2.4
190
270
350
16
± 0.75
± 0.75
V
Ω
±1
TLC5510A
TLC5510
f(CLK) = 20 MHz,,
VI = 0.5 V to 2.5 V
TA = 25°C
TA = – 20°C to 75°C
± 0.3
f(CLK) = 20 MHz,,
VI = 0 to 4 V
TA = 25°C
TA = – 20°C to 75°C
± 0.3
TLC5510
UNIT
pF
± 0.4
± 0.4
±1
± 0.5
LSB
± 0.75
± 0.5
± 0.75
– 18
– 43
– 68
mV
TLC5510A
Vref = REFT – REFB = 2 V
Vref= REFT – REFB = 4 V
– 36
– 86
– 136
mV
TLC5510
Vref = REFT – REFB = 2 V
– 20
0
20
mV
– 40
0
40
mV
TLC5510A Vref = REFT – REFB = 4 V
† Conditions marked MIN or MAX are as stated in recommended operating conditions.
4
MAX
0.61
TA = 25°C
TA = – 20°C to 75°C
TLC5510A
Zero scale error
Zero-scale
TYP
f(CLK) = 20 MHz,,
VI = 0 to 4 V
Differential nonlinearity (DNL)
EZS
MIN
0.57
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TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
operating characteristics at VDD = 5 V, VREFT = 2.5 V, VREFB = 0.5 V, f(CLK) = 20 MHz, TA = 25°C (unless
otherwise noted)
PARAMETER
TEST CONDITIONS
TLC5510
MIN
TYP
VI(ANLG) = 0.5 V – 2.5 V
VI(ANLG) = 0 V – 4 V
fconv
Maximum conversion rate
BW
Analog input bandwidth
At – 1 dB
14
td(D)
Digital output delay time
CL ≤ 10 pF (see Note 1 and Figure 1)
18
Differential gain
NTSC 40 Institute of Radio Engineers
(IRE)
g
(
)
modulation wave,
fconv = 14.3 MSPS
TLC5510A
Differential phase
tAJ
td(s)
Aperture jitter time
ten
Enable time, OE↓ to valid data
tdis
Disable time, OE↑ to high impedance
fI = 1
1-kHz
kHz ramp
MSPS
20
MSPS
MHz
30
ns
1%
degrees
30
ps
4
ns
CL = 10 pF
5
ns
CL = 10 pF
7
ns
Sampling delay time
Input tone = 1 MHz
TA = 25°C
Full range
45
Input tone = 3 MHz
TA = 25°C
Full range
45
Input tone = 6 MHz
TA = 25°C
Full range
43
Input tone = 10 MHz
TA = 25°C
Full range
39
43
46
dB
42
39
TA = 25°C
Full range
Signal to noise ratio
Signal-to-noise
UNIT
20
0.7
Spurious free dynamic range (SFDR)
SNR
MAX
46
dB
44
NOTE 1: CL includes probe and jig capacitance.
tw(H)
tw(L)
CLK (clock)
td(s)
ANALOG IN
(input signal)
D1 – D8
(output data)
N+1
N
N+2
N+4
N+3
N–3
N–2
N–1
N
N+1
td(D)
Figure 1. I/O Timing Diagram
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TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
PRINCIPLES OF OPERATION
functional description
The TLC5510 and TLC5510A are semiflash ADCs featuring two lower comparator blocks of four bits each.
As shown in Figure 2, input voltage VI(1) is sampled with the falling edge of CLK1 to the upper comparators block
and the lower comparators block(A), S(1). The upper comparators block finalizes the upper data UD(1) with the
rising edge of CLK2, and simultaneously, the lower reference voltage generates the voltage RV(1)
corresponding to the upper data. The lower comparators block (A) finalizes the lower data LD(1) with the rising
edge of CLK3. UD(1) and LD(1) are combined and output as OUT(1) with the rising edge of CLK4. As shown
in Figure 2, the output data is delayed 2.5 clocks from the analog input voltage sampling point.
Input voltage VI(2) is sampled with the falling edge of CLK2. UD(2) is finalized with the rising edge of CLK3, and
LD(2) is finalized with the rising edge of CLK4 at the lower comparators block(B). OUT(2) data appears with
the rising edge of CLK5.
VI(1)
VI(2)
VI(3)
VI(4)
ANALOG IN
(sampling points)
CLK1
CLK2
CLK3
CLK4
CLK5
CLK (clock)
Upper Comparators Block
S(1)
C(1)
S(2)
C(2)
S(3)
C(3)
C(4)
Upper Data
UD(0)
UD(1)
UD(2)
UD(3)
Lower Reference Voltage
RV(0)
RV(1)
RV(2)
RV(3)
S(1)
Lower Comparators Block (A)
H(1)
Lower Comparators Block (B)
Lower Data (B)
D1 – D8 (data output)
C(1)
S(3)
H(3)
LD(– 1)
Lower Data (A)
H(0)
C(0)
S(2)
LD(– 2)
OUT(– 2)
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C(3)
LD(1)
H(2)
C(2)
LD(0)
OUT(–1)
S(4)
H(4)
LD(2)
OUT(0)
Figure 2. Internal Functional Timing Diagram
6
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OUT(1)
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
PRINCIPLES OF OPERATION
internal referencing
TLC5510
The three internal resistors shown with VDDA can generate a 2-V reference voltage. These resistors are brought
out on VDDA, REFTS, REFT, REFB, REFBS, and AGND.
To use the internally generated reference voltage, terminal connections should be made as shown in Figure 3.
This connection provides the standard video 2-V reference for the nominal digital output.
TLC5510
VDDA
(analog supply)
REFTS
18
R1
320 Ω NOM
16
17
REFT
REFB
Rref
270 Ω NOM
23
22
REFBS
AGND
R2
80 Ω NOM
21
Figure 3. External Connections for a 2-V Analog Input Span Using the Internal-Reference Resistor Divider
TLC5510A
For an analog input span of 4 V, 4 V is supplied to REFT, and REFB is grounded and terminal connections should
be made as shown in Figure 4. This connection provides the 4-V reference for the nominal zero to full-scale
digital output with a 4 Vpp analog input at ANALOG IN.
TLC5510A
18
VDDA
(analog supply)
R1
320 Ω NOM
16
REFTS
4V
17
REFT
REFB
Rref
270 Ω NOM
23
REFBS 22
R2
80 Ω NOM
21
AGND
Figure 4. External Connections for 4-V Analog Input Span
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TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
PRINCIPLES OF OPERATION
functional operation
The output code change with input voltage is shown in Table 1.
Table 1. Functional Operation
DIGITAL OUTPUT CODE
INPUT SIGNAL
VOLTAGE
STEP
Vref(B)
255
0
0
0
0
0
0
0
0
•
•
•
•
•
•
•
•
•
•
MSB
LSB
•
•
•
•
•
•
•
•
•
•
•
128
0
1
1
1
1
1
1
1
•
127
1
0
0
0
0
0
0
0
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Vref(T)
0
1
1
1
1
1
1
1
1
APPLICATION INFORMATION
The following notes are design recommendations that should be used with the device.
D
D
D
D
D
D
8
External analog and digital circuitry should be physically separated and shielded as much as possible to
reduce system noise.
RF breadboarding or printed-circuit-board (PCB) techniques should be used throughout the evaluation and
production process. Breadboards should be copper clad for bench evaluation.
Since AGND and DGND are connected internally, the ground lead in must be kept as noise free as possible.
A good method to use is twisted-pair cables for the supply lines to minimize noise pickup. An analog and
digital ground plane should be used on PCB layouts when additional logic devices are used. The AGND
and DGND terminals of the device should be tied to the analog ground plane.
VDDA to AGND and VDDD to DGND should be decoupled with 1-µF and 0.01-µF capacitors, respectively,
and placed as close as possible to the affected device terminals. A ceramic-chip capacitor is recommended
for the 0.01-µF capacitor. Care should be exercised to ensure a solid noise-free ground connection for the
analog and digital ground terminals.
VDDA, AGND, and ANALOG IN should be shielded from the higher frequency terminals, CLK and D0–D7.
When possible, AGND traces should be placed on both sides of the ANALOG IN traces on the PCB for
shielding.
In testing or application of the device, the resistance of the driving source connected to the analog input
should be 10 Ω or less within the analog frequency range of interest.
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TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
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APPLICATION INFORMATION
DVDD
5V
C12
TLC5510
AVDD
5V
13
VREF
ADJ
FB3
14
C8
FB2
R5
FB7
Video
Input
J1
C1
16
17
18
C11
C6
FB1
R4
VDDA
VDDD
VDDA
D8 (MSB)
12
Clock
11
10
C11
REFTS
D7
REFT
D6
VDDA
D5
ANALOG IN
D4
AGND
D3
AGND
D2
9
8
C9
R3
D1
CLK
C7
JP1 JP2
C3
TP1
Q1
15
VDDD
R2
19
R1
C5
C2
20
D3
21
C4
–5V
D2
JP3 JP4
22
TP3
C10
23
24
REFBS D1 (LSB)
REFB
DGND
DGND
OE
7
6
5
4
3
2
1
Output
Enable
NOTE A: Shorting JP1 and JP3 allows adjustment of the reference voltage by R5 using temperature-compensating diodes D2 and D3
which compensate for D1 and Q1 variations. By shorting JP2 and JP4, the internal divider generates a nominal 2-V reference.
LOCATION
DESCRIPTION
C1, C3 – C4, C6 – C12
0.1-µF capacitor
C2
10-pF capacitor
C5
47-µF capacitor
FB1, FB2, FB3, FB7
Q1
Ferrite bead
2N3414 or equivalent
R1, R3
75-Ω resistor
R2
500-Ω resistor
R4
10-kΩ resistor, clamp voltage adjust
R5
300-Ω resistor, reference-voltage fine adjust
Figure 5. TLC5510 Evaluation and Test Schematic
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TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
APPLICATION INFORMATION
DVDD
5V
C4
TLC5510A
AVDD
5V
13
VREF
ADJ
FB3
14
C8
FB2
R5
15
J1
C1
16
C3
TP1
Q1
17
C11
R4
VDDA
VDDD
VDDA
D8 (MSB)
12
Clock
11
10
C11
REFTS
D7
REFT
D6
VDDA
D5
ANALOG IN
D4
AGND
D3
AGND
D2
9
8
C9
R3
D1
CLK
C7
FB7
Video
Input
VDDD
18
FB1
C6
R2
19
R1
C5
C2
20
21
–5V
22
23
24
REFBS D1 (LSB)
REFB
DGND
DGND
OE
7
6
5
4
3
2
1
NOTE A: R5 allows adjustment of the reference voltage to 4 V. R4 adjusts for the desired Q1 quiescent operating point.
DESCRIPTION
LOCATION
C1, C3 – C4, C6 – C11
0.1-µF capacitor
C2
10-pF capacitor
C5
47-µF capacitor
FB1, FB2, FB3, FB7
Q1
Ferrite bead
2N3414 or equivalent
R1, R3
75-Ω resistor
R2
500-Ω resistor
R4
10-kΩ resistor, clamp voltage adjust
R5
300-Ω resistor, reference-voltage fine adjust
Figure 6. TLC5510A Evaluation and Test Schematic
10
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Output
Enable
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
APPLICATION INFORMATION
AVDD
5V
4.7 µF
+
1 kΩ
0.1 µF
10 kΩ POT
CLOCK
1 kΩ
4.7 µF
TLC5510
THS3001
49.9 Ω
AVSS
– 5V 4.7 µF
49.9 Ω
+
_
CLOCK
ANALOG IN
100 pF
681 Ω
0.1 µF 681 Ω
+
FB1†
4.7 µF
+
FB3
+
4.7 µF
4.7 µF
+
0.1 µF +
0.1 µF +
4.7 µF
VDDA
VDDA
VDDA
0.1 µF
OE
D1
D2
D3
D4
D5
D6
D7
D8
DVDD
5V
4.7 µF
REFTS
0.1 µF
VDDD
VDDD
REFT
4.7 µF
+
To Processor
0.1 µF
0.1 µF
REFBS
0.1 µF
REFB
DGND
DGND
4.7 µF
AGND
AGND
† FB – Ferrite Bead
Figure 7. TLC5510 Application Schematic
POST OFFICE BOX 655303
• DALLAS, TEXAS 75265
11
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
APPLICATION INFORMATION
AV DD
+5V
0.1µF
+
6.8µF
CLOCK
698Ω
0.1µF
TLC5510A
50Ω
49.9Ω
OPA690
59Ω
698Ω
OE
CLOCK
ANALOG IN
100pF
D1
D2
D3
D4
D5
D6
D7
D8
402Ω
402Ω
0.1µF
FB1†
+
FB3 +
4.7µF
0.1µF
+
4.7µF
0.1µF
+
VDDA
VDDA
VDDA
4.7µF
4.7µF
DVDD
+5V
0.1µF
4.7µF
VREF
4V
4.7µF
REFTS
REFT
REFBS
REFB
VDDD
VDDD
0.1µF
DGND
DGND
AGND
AGND
† FB — Ferrite Bead
Figure 8. TLC5510A Application Schematic
12
To Processor
POST OFFICE BOX 655303
• DALLAS, TEXAS 75265
0.1µF
4.7µF
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
MECHANICAL DATA
PW (R-PDSO-G**)
PLASTIC SMALL-OUTLINE PACKAGE
14 PINS SHOWN
0,30
0,19
0,65
14
0,10 M
8
0,15 NOM
4,50
4,30
6,60
6,20
Gage Plane
0,25
1
7
0°– 8°
A
0,75
0,50
Seating Plane
0,15
0,05
1,20 MAX
PINS **
0,10
8
14
16
20
24
28
A MAX
3,10
5,10
5,10
6,60
7,90
9,80
A MIN
2,90
4,90
4,90
6,40
7,70
9,60
DIM
4040064/F 01/97
NOTES: A.
B.
C.
D.
All linear dimensions are in millimeters.
This drawing is subject to change without notice.
Body dimensions do not include mold flash or protrusion not to exceed 0,15.
Falls within JEDEC MO-153
POST OFFICE BOX 655303
• DALLAS, TEXAS 75265
13
TLC5510, TLC5510A
8-BIT HIGH-SPEED ANALOG-TO-DIGITAL CONVERTERS
SLAS095L – SEPTEMBER 1994 – REVISED JUNE 2003
MECHANICAL DATA
NS (R-PDSO-G**)
PLASTIC SMALL-OUTLINE PACKAGE
14 PIN SHOWN
PINS **
14
16
20
24
A MAX
10,50
10,50
12,90
15,30
A MIN
9,90
9,90
12,30
14,70
DIM
0,51
0,35
1,27
14
0,25 M
8
0,15 NOM
5,60
5,00
8,20
7,40
Gage Plane
1
7
0,25
0°– 10°
A
1,05
0,55
Seating Plane
2,00 MAX
0,05 MIN
0,10
4040062 / B 2/95
NOTES: A. All linear dimensions are in millimeters.
B. This drawing is subject to change without notice.
C. Body dimensions do not include mold flash or protrusion, not to exceed 0,15.
14
POST OFFICE BOX 655303
• DALLAS, TEXAS 75265
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