AD7960BCPZ-RL7(Rev0) 查看數據表(PDF) - Analog Devices
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AD7960BCPZ-RL7 Datasheet PDF : 24 Pages
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AD7960
PIN CONFIGURATION AND FUNCTION DESCRIPTIONS
Data Sheet
VDD1 1
VDD2 2
REFIN 3
EN0 4
EN1 5
EN2 6
EN3 7
CNV– 8
PIN 1
INDICATOR
AD7960
TOP VIEW
(Not to Scale)
24 GND
23 IN+
22 IN–
21 VCM
20 VDD1
19 VDD1
18 VDD2
17 CLK+
Table 6. Pin Function Descriptions
Pin No.
Mnemonic Type1
1, 19, 20
VDD1
P
2, 18, 25
VDD2
P
12
VIO
P
13, 24
GND
P
26, 27, 28
REF_GND
P
3
REFIN
AI
4, 5, 6, 7
8, 9
EN0, EN1,
DI
EN2,2 EN3
CNV−, CNV+ DI
10, 11
14, 15
D−, D+
DO
DCO−, DCO+ DO
16, 17
21
CLK−, CLK+ DI
VCM
AO
22
IN−
AI
23
IN+
AI
29, 30, 31, 32 REF
AI/O
33
EP
NOTES
1. CONNECT THE EXPOSED PAD TO THE
GROUND PLANE OF THE PCB
USING MULTIPLE VIAS.
Figure 4. Pin Configuration
Description
Analog 5 V Supply. Decouple the 5 V supply with a 100 nF capacitor.
Analog 1.8 V Supply. Decouple this pin with a 100 nF capacitor.
Input/Output Interface Supply. Use a 1.8 V supply and decouple this pin with a 100 nF capacitor.
Ground.
Reference Ground. Connect the capacitors on the REF pin between REF and REF_GND. Tie REF_GND to
GND.
Prebuffer Reference Voltage. It is driven with an external reference voltage of 2.048 V. When driving an
external 2.048 V reference, a 100 nF capacitor is required. If using an external 5 V or 4.096 V reference
(connected to REF), connect this pin to ground.
Enable.2 The logic levels of these pins set the operation of the device, as described in Table 8.
Convert Input. These pins act as the conversion control pin. On the rising edge of these pins, the
analog inputs are sampled and a conversion cycle is initiated. CNV+ works as a CMOS input when
CNV− is grounded; otherwise, CNV+ and CNV− are differential LVDS inputs.
LVDS Data Outputs. The conversion data is output serially on these pins.
LVDS Buffered Clock Outputs. When DCO+ is grounded, the self clocked interface mode is selected. In
this mode, the 18-bit results on D± are preceded by an initial 0 (which is output at the end of the
previous conversion), followed by a 2-bit header (10) to allow synchronization of the data by the digital
host with extra logic. The 1 in this header provides the reference to acquire the subsequent conversion
result correctly. When DCO+ is not grounded, the echoed clock interface mode is selected. In this
mode, DCO± is a copy of CLK±. The data bits are output on the falling edge of DCO+ and can be
captured in the digital host on the next rising edge of DCO+.
LVDS Clock Inputs. This clock shifts out the conversion results on the falling edge of CLK+.
Common-Mode Output. When using any reference scheme, this pin produces one-half the voltage
present on the REF pin, which can be useful for driving the common mode of the input amplifiers.
Differential Negative Analog Input. Referenced to and must be driven 180° out of phase with IN+.
Differential Positive Analog Input. Referenced to and must be driven 180° out of phase with IN−.
Buffered Reference Voltage. When using the 2.048 V external reference (REFIN input), the 4.096 V
system reference is produced at this pin. When using an external reference of 4.096 V or 5 V on this pin,
the internal reference buffer must be disabled. Connect the REF pins with the shortest trace possible to
a single 10 μF, low ESR, low ESL capacitor. The other side of the capacitor must be placed close to GND.
Exposed Pad. The exposed pad is located on the underside of the package. Connect the exposed pad
to the ground plane of the PCB using multiple vias.
1 AI = analog input; AI/O = bidirectional analog; AO = analog output; DI = digital input; DO = digital output; P = power.
2 EN2 = 0 sets the 28 MHz of input bandwidth, and EN2 = 1 sets the 9 MHz of input bandwidth. EN3 = 1 enables the VCM reference output.
Rev. 0 | Page 8 of 24
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