HA9P5320-5ZX96 Intersil, HA9P5320-5ZX96 Datasheet - Page 6
HA9P5320-5ZX96
Manufacturer Part Number
HA9P5320-5ZX96
Description
Sample & Hold Amplifiers Pb-Free w/Anneal SMP&HLD 2MHZ 1US INTCAP 16WSOIC COM, T&R
Manufacturer
Intersil
Datasheet
1.HA9P5320-5ZX96.pdf
(11 pages)
Specifications of HA9P5320-5ZX96
Rohs
yes
Acquisition Time
1 us
Supply Voltage - Max
20 V
Maximum Operating Temperature
+ 75 C
Minimum Operating Temperature
0 C
Package / Case
SOIC-16
Bandwidth
600 kHz
Supply Voltage - Min
13.5 V
The hold capacitor terminal (pin 11) remains at virtual ground
potential. Any PC connection to this terminal should be kept
short and “guarded” by the ground plane, since nearby
signal lines or power supply voltages will introduce errors
due to drift current.
Typical Application
Figure 5 shows the HA-5320 connected as a unity gain
noninverting amplifier - its most widely used configuration.
As an input device for a fast successive - approximation A/D
converter, it offers very high throughput rate for a monolithic
IC sample/hold amplifier. Also, the HA-5320’s hold step error
is adjustable to zero using the Offset Adjust potentiometer, to
deliver a 12-bit accurate output from the converter.
The application may call for an external hold capacitor C
shown. As mentioned earlier, 0.1C
pin 8 to reduce output noise in the Hold mode.
The HA-5320 output circuit does not include short circuit
protection, and consequently its output impedance remains
low at high frequencies. Thus, the step changes in load
current which occur during an A/D conversion are absorbed
at the S/H output with minimum voltage error. A momentary
short circuit to ground is permissible, but the output is not
designed to tolerate a short of indefinite duration.
Glossary of Terms
Acquisition Time
The time required following a “sample” command, for the
output to reach its final value within ±0.1% or ±0.01%. This is
the minimum sample time required to obtain a given accuracy,
and includes switch delay time, slewing time and settling time.
Charge Transfer
The small charge transferred to the holding capacitor from
the inter-electrode capacitance of the switch when the unit is
switched to the HOLD mode. Charge transfer is directly
proportional to sample-to-hold offset pedestal error, where:
Charge Transfer (pC) = C
S/H CONTROL
S
H
V
IN
ADJUST
OFFSET
14
±15mV
1
2
FIGURE 5. TYPICAL HA-5320 CONNECTIONS; NONINVERTING UNITY GAIN MODE
H
13
3
(pF) x Hold Step Error (V)
+
10kΩ
-
6
SYSTEM POWER
GROUND
EXT
4
HA-5320
is then recommended at
-15V +15V
5
9
6
11
SYSTEM SIGNAL
GROUND
+
-
8
EXT
C
100pF
EXT
0.1C
as
HA-5320
EXT
7
CONVERT
Aperture Time
The time required for the sample-and-hold switch to open,
independent of delays through the switch driver and input
amplifier circuitry. The switch opening time is the interval
between the conditions of 10% open and 90% open.
Hold Step Error
Hold Step Error is the output error due to Charge Transfer (see
above). It may be calculated from the specified parameter,
Charge Transfer, using the following relationship:
See Performance Curves.
Effective Aperture Delay Time (EADT)
The difference between the digital delay time from the Hold
command to the opening of the S/H switch, and the
propagation time from the analog input to the switch.
EADT may be positive, negative or zero. If zero, the S/H
amplifier will output a voltage equal to V
Hold command was received. For negative EADT, the output in
Hold (exclusive of pedestal and droop errors) will correspond to
a value of V
Aperture Uncertainty
The range of variation in Effective Aperture Delay Time.
Aperture Uncertainty (also called Aperture Delay Uncertainty,
Aperture Time Jitter, etc.) sets a limit on the accuracy with
which a waveform can be reconstructed from sample data.
Drift Current
The net leakage current from the hold capacitor during the
hold mode. Drift current can be calculated from the droop
rate using the formula:
I
Hold Step (V)
D
(pA)
=
C
13
H
5
9
IN
(
=
pF
that occurred before the Hold command.
ANALOG
COMMON
INPUT
R/C
----------------------------------------------------------- -
Hold Capacitance (pF)
Charge Transfer (pC)
)
×
ΔV
------- - (V/s)
Δt
HI-574A
NOTE: Pin Numbers Refer to
IN
at the instant the
DIP Package Only.
DIGITAL
OUTPUT
March 1, 2012
FN2857.8
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