ACPL-7970-500E Avago Technologies US Inc., ACPL-7970-500E Datasheet - Page 12
ACPL-7970-500E
Manufacturer Part Number
ACPL-7970-500E
Description
IsolatedSigmaDelta Mod, TR+IEC+LF
Manufacturer
Avago Technologies US Inc.
Series
-r
Type
Sigma-Delta Modulatorr
Datasheet
1.ACPL-7970-000E.pdf
(18 pages)
Specifications of ACPL-7970-500E
Operating Supply Voltage
5.5 V
Supply Current
8 mA at 5 V
Operating Temperature Range
- 40 C to + 105 C
Mounting Style
SMD/SMT
Package / Case
DIP-8 Gull Wing
Input Voltage Range (max)
+ 200 mV
Voltage - Isolation
5000Vrms
Input Type
DC
Voltage - Supply
3 V ~ 5.5 V, 4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Lead Free Status / Rohs Status
Details
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Analog Input
The differential analog inputs of the ACPL-7970 are im-
plemented with a fully-differential, switched-capacitor
circuit. The ACPL-7970 accepts signal of ±200 mV (full
scale ±320 mV), which is ideal for direct connection to
shunt based current sensing or other low-level signal
sources applications such as motor phase current mea-
surement. An internal voltage reference determines the
full-scale analog input range of the modulator (±320 mV);
an input range of ±200 mV is recommended to achieve
optimal performance. Users are able to use higher input
range, for example ±250 mV, as long as within full-scale
range, for purpose of over-current or overload detection.
Figure 14 shows the simplified equivalent circuit of the
analog input.
In the typical application circuit (Figure 19), the ACPL-7970
is connected in a single-ended input mode. Given the
fully differential input structure, a differential input con-
nection method (balanced input mode as shown in Figure
15) is recommended to achieve better performance. The
input currents created by the switching actions on both of
the pins are balanced on the filter resistors and cancelled
out each other. Any noise induced on one pin will be
coupled to the other pin by the capacitor C and creates
only common mode noise which is rejected by the device.
Typical values for Ra (= Rb) and C are 2.2 : and 100 nF
respectively.
Figure 14. Analog input equivalent circuit.
Figure 16. Modulator output vs. analog input.
12
V
V
IN+
IN–
MODULATOR OUTPUT
ANALOG INPUT
f
= MCLK
f
= MCLK
SWITCH
SWITCH
1.5 pF
1.5 pF
200
200
ANALOG
GROUND
(TYP)
(TYP)
COMMON MODE
VOLTAGE
3 pF (TYP)
3 pF (TYP)
Latch-up Consideration
Latch-up risk of CMOS devices needs careful consider-
ation, especially in applications with direct connection to
signal source that is subject to frequent transient noise.
The analog input structure of the ACPL-7970 is designed
to be resilient to transients and surges, which are often
encountered in highly noisy application environments
such as motor drive and other power inverter systems.
Other situations could cause transient voltages to the
inputs include short circuit and overload conditions. The
ACPL-7970 is tested with DC voltage of up to -2 V and
2-second transient voltage of up to -6 V to the analog
inputs with no latch-up or damage to the device.
Modulator Data Output
Input signal information is contained in the modulator
output data stream, represented by the density of ones
and zeros. The density of ones is proportional to the input
signal voltage, as shown in Figure 16. A differential input
signal of 0 V ideally produces a data stream of ones and
zeros in equal densities. A differential input of -200 mV
corresponds to 18.75% density of ones, and a differen-
tial input of +200 mV is represented by 81.25% density of
ones in the data stream. A differential input of +320 mV or
higher results in ideally all ones in the data stream, while
input of -320 mV or lower will result in all zeros ideally.
Table 5 shows this relationship.
Figure 15. Simplified differential input connection diagram.
+Analog Input
–Analog Input
Ra
Rb
+FS (ANALOG INPUT)
0 V (ANALOG INPUT)
–FS (ANALOG INPUT)
TIME
C
5 V
V
V
V
GND1
DD1
IN+
IN–
ACPL-7970
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