Datasheet EVB-SHM14 Datasheet (DATEL)

INNOVATION and EX C ELL E N C E

® ®

SHM-14

Ultra-Fast, 14-Bit Linear

Monolithic Sample-Hold Amplifiers

Figure 1. SHM-14 Functional Block Diagram

1, 5, 8

ANALOG
OUTPUT

3

15

ANALOG INPUT

9

SAMPLE/HOLD

SWITCH

DRIVE

16

13 10, 11, 14

12

GROUND

EXTERNAL HOLD

CAPACITOR–5V SUPPLY +5V SUPPLY

+1

+1

SAMPLE/HOLD

C

H

15pF

2, 4, 6, 7

DO NOT CONNECT

Note: SOIC Package Pinouts Shown

FEATURES

• Fast acquisition time:

10ns to ±0.1%
20ns to ±0.024%
25ns to ±0.012%

• ±0.0012% Nonlinearity

• 65µV rms output noise

• 250MHz small signal bandwidth

• 70MHz full power bandwidth

• –80dB feedthrough

• 1ps Aperture jitter

• 250mW power dissipation

• Low cost

GENERAL DESCRIPTION

The SHM-14 is an extremely high-speed and accurate
monolithic sample-and-hold amplifier designed for fast data
acquisition applications. The SHM-14 is accurate (±0.5 LSB to
14-bits over the full military temperature range) and is very fast
(10ns and 20ns acquisition times to accuracies of 10 and 12
bits respectively). With this high performance and a full power
bandwidth of 70MHz, the SHM-14 is an ideal device for driving
flash and high-resolution subranging A/D converters.

A careful design optimizes the device for accuracy and speed
over the full military temperature range. The droop rate is a low
±2mV/µs and can be further reduced by adding an optional
external hold capacitor. The 30mA output current and
guaranteed specifications for a 100Ω load provide high drive
capability. Operating from ± 5V supplies, the SHM-14
consumes only 250mW of power.

The SHM-14 is built using a fast complementary bipolar
process. The device is available in both military and industrial
temperature ranges. The SHM-14 is packaged in a 16-pin
plastic SOIC or in a 20-pin ceramic LCC.

1 NOT CONNECTED
2 –5V SUPPLY
3 NOT CONNECTED
4 ANALOG INPUT
5 NOT CONNECTED
6 DO NOT CONNECT
7 –5V SUPPLY
8 DO NOT CONNECT
9 DO NOT CONNECT

10 –5V SUPPLY

20 NOT CONNECTED
19 SAMPLE/HOLD
18 SAMPLE/HOLD
17 +5V SUPPLY
16 NOT CONNECTED
15 EXT. CAPACITOR
14 GROUND
13 +5V SUPPLY
12 +5V SUPPLY
11 ANALOG OUTPUT

PIN FUNCTION

PIN FUNCTION

INPUT/OUTPUT CONNECTIONS — CLCC

16 SAMPLE/HOLD
15 SAMPLE/HOLD
14 +5V SUPPLY
13 EXT. CAPACITOR
12 GROUND
11 +5V SUPPLY
10 +5V SUPPLY

9 ANALOG OUTPUT

1 –5V SUPPLY
2 DO NOT CONNECT
3 ANALOG INPUT
4 DO NOT CONNECT
5 –5V SUPPLY
6 DO NOT CONNECT
7 DO NOT CONNECT
8 –5V SUPPLY

PIN FUNCTION

PIN FUNCTION

INPUT/OUTPUT CONNECTIONS — SOIC

DATEL, Inc., 11 Cabot Boulevard, Mansfield, MA 02048-1151 (U.S.A.) • Tel: (508) 339-3000 Fax: (508) 339-6356 • For immediate assistance (800) 233-2765

SHM-14

® ®

INPUTS MIN. TYP. MAX. UNITS

Input Voltage Range –2.5 — +2.5 Volts
Input Impedance 0.3 1 — MΩ
Digitals Inputs (Balanced ECL)
Logic Levels

Logic 1 –1.5 — +1.8 Volts
Logic 0 –2.5 — +0.8 Volts

Logic Loading

Logic 1 — +10 +50 µA
Logic 0 — –30 –150 µA

Output Voltage Range –2.5 — +2.5 Volts
Output Current

• ± 30 — — mA

Output Impedance (dc) — 0.3 1 Ω
Stable Capacitive Load — — 50 pF

Nonlinearity (±1V)

+25°C — ±0.0012 — %
–40 to +85°C — — ±0.002 %
–55 to +125°C — — ±0.003 %

Sample Mode Offset

+25°C — ±12 — mV
–40 to +85°C — — ±20 mV
–55 to +125°C — — ±30 mV

Pedestal

+25°C — ±3 — mV

–40 to +85°C — — ±20 mV

–55 to +125°C — — ±20 mV

Gain, +25°C +0.98 +0.995 — V/V
Gain Drift (±1V)

–40 to +85°C — — ±20 ppm/°C
–55 to +125°C — — ±30 ppm/°C

Aperture Delay

–40 to +85°C — 2 — ns
–55 to +125°C — 2 — ns

Aperture Jitter

–40 to +85°C — 1 — ps rms
–55 to +125°C — 1 — ps rms

Harmonic Distortion (±1V)

dc to 1MHz — –72 — dB
dc to 10MHz

+25°C — –58 — dB
–40 to +85°C — — –50 dB
–55 to +125°C — — –48 dB

Acquisition Time (±0.012%, ±2V)

–40 to +85°C — 25 — ns
–55 to +125°C — 35 — ns

Acquisition Time (±0.024%, ±2V)

–40 to +85°C — 20 35 ns
–55 to +125°C — 25 40 ns

Acquisition Time (±0.05%, ±2V)

–40 to +85°C — 19 30 ns
–55 to +125°C — 20 35 ns

ABSOLUTE MAXIMUM RATINGS

PARAMETERS LIMITS UNITS

+5V Supply 0 to +6 Volts
–5V Supply 0 to –6 Volts
Analog Input +5V Supply –1 Volts

–5V Supply +1 Volts

Continuous Output Current ±50 mA
Digital Inputs <Supply Voltages Volts
Junction Temperature +175 °C
Lead Temperature (10 seconds) +300 °C

Output shorted to any supply will cause permanent damage.

OUTPUTS

PERFORMANCE

FUNCTIONAL SPECIFICATIONS

(Apply over the operating temperature range using a 100Ω resistive load, 10pF
capacitive load, ECL digital input levels, and ±5V nominal supplies, unless specified.)

TECHNICAL NOTES

The SHM-14 employs an open loop architecture in order to
achieve its superior high-speed characteristics. The first stage
buffer amplifier, which charges the hold capacitor, incorporates the
sample-and-hold switch into its design. This technique allows for a
fast acquisition time which is not limited by slew current like the
traditional Schottky diode bridge switch. The output amplifier uses
a closed loop voltage feedback design which provides a low (0.3Ω,
typical) output impedance. Gain and linearity are not affected by
heavy loads.

The design has been optimized to achieve the high accuracy associ­ated with fast transient responses over the full military temperature
range. During the track-to-hold transient, the integral nonlinearity is
not affected and the pedestal remains constant over the full ±2.5V
input range.

An external hold capacitor can be added to the 15pF internal hold
capacitor to obtain a lower droop rate (the droop rate is propor­tional to the inverse of the total hold capacitor value) without
increasing transient response times by more than few ns. Settling
and acquisition times are typically increased by 5ns and 10ns
respectively for 47pF and 100pF external hold capacitors. The
external hold capacitor should not exceed 100pF.

Acquisition Time (±0.1%, ±2V)

–40 to +85°C — 10 16 ns
–55 to +125°C — 10 19 ns

Hold Mode Settling (±0.012%)

–40 to +85°C — 12 — ns
–55 to +125°C — 15 — ns

Hold Mode Settling (±0.024%)

–40 to +85°C — 7 18 ns
–55 to +125°C — 7 18 ns

Hold Mode Settling (±0.05%)

–40 to +85°C — 6 16 ns
–55 to +125°C — 6 16 ns

Hold Mode Settling (±0.1%)

–40 to +85°C — 5 12 ns
–55 to +125°C — 5 12 ns

Slew Rate ±300 ±430 — V/µs
Full Power Bandwidth (±1V) 45 70 — MHz
Small Signal Bandwidth 100 250 — MHz
Output Noise, Hold Mode — 65 — µVrms
Feedthrough (2V Step) — –80 — dB
Droop Rate

+25°C — ±2 ±6 mV/µs
–40 to +85°C — ±5 ±15 mV/µs
–55 to +125°C — ±10 ±30 mV/µs

Power Supply Range

+5V Supply +4.5 +5 +5.5 Volts
–5V Supply –5.5 –5 –4.5 Volts

Power Supply Current

+5V Supply +17 +25 +30 mA
–5V Supply –17 –25 –30 mA

Power Dissipation 170 250 300 mW
Power Supply Rejection Ratio 40 60 — dB

Operating Temp. Range, Case

SHM-14S, SHM-14L –40 — +85 °C
SHM-14LM –55 — +125 °C

Storage Temperature Range –65 — +150 °C
Package Type

SHM-14S 16-Pin plastic SOIC
SHM-14L, SHM-14LM 20-Pin ceramic LCC

Footnotes:

• Short circuit protection at ±50mA.

ENVIRONMENTAL

POWER SUPPLY REQUIREMENTS

PERFORMANCE (Cont.) MIN. TYP. MAX. UNITS

2

SHM-14

® ®

HOLD

SAMPLE

-0.8 V

-1.8 V

-0.8 V

-1.8 V

+1 V

-1 V

+1 V

-1 V

Acquisition

Time to

±0.024%

Track-to-hold Settling

to ±0.024%

20ns typ.

7ns typ.

20ns typ.

7ns typ.

Feedthrough -80dB

SAMPLE

HOLD

ANALOG

INPUT

ANALOG

OUTPUT

HOLD

SAMPLE

GROUNDING AND LAYOUT

Obtaining fully specified performance from the SHM-14 requires
careful attention to pc-board layout and power supply decoupling.

For optimal performance, tie all grounds directly to a large ana­log ground plane beneath and around the package. Bypass all
power supplies to ground with 10µF tantalum capacitors in par­allel with 0.1µF ceramic capacitors.

Locate the bypass capacitors as close to the unit as possible.
For best performance, controlled impedance transmission line

techniques, such as microstrip, should be used. Mount all com­ponents as close to the required pins as possible. It is strongly
recommended that the SHM-14 not be socket-mounted.

Figure 2. SHM-14 Simplified Connection Diagram

Figure 3. SHM-14 Control and Timing

–5V SUPPLY

–5V SUPPLY

–5V SUPPLY

INPUT

SAMPLE / HOLD

EXTERNAL HOLD

CAPACITOR

GROUND

+5V SUPPLY

ANALOG OUTPUT

+5V SUPPLY

ANALOG

INPUT

ANALOG
OUTPUT

HOLD

SAMPLE

SHM-14

50

Ω

+

0.1µF

10µF

0.1µF

0.1µF

–5V

0.1µF

0.1µF

+5V

0.1µF

10µF

0.1µF

SAMPLE / HOLD

+5V SUPPLY

50Ω

50

Ω

R Load
100

Ω

1 (2)

3 (4)

5 (7)

8 (10)

16 (19)

15 (18)

14 (17)

13 (15)

12 (14)

11 (13)

10 (12)

9 (11)

NOTES:

1. Pin numbers in ( ) are for CLCC package.

2. For SOIC package:
Pins 2, 4, 6, 7 DO NOT CONNECT

3. For CLCC package:
Pins 1, 3, 5, 16, 20 NOT CONNECTED

Pins 6, 8, 9 DO NOT CONNECT

Refer to Table 1 for optional
HOLD capacitor values.

C

HOLD

+

3

SHM-14

® ®

Figure 4. SHM-14 Evaluation Board Schematic

Operating Type of HOLD Capacitor

Model Temperature Range (Ceramic, ≤100pF, ±10%)

SHM-14L, -14S –40 to +85°C Type I or II, NPO or X7R
SHM-14LM –55 to +125°C Type I or NPO

Table 1. Optional External HOLD Capacitor

–5V SUPPLY

–5V SUPPLY

–5V SUPPLY

INPUT

SAMPLE / HOLD

+5V SUPPLY

EXTERNAL HOLD

CAPACITOR

GROUND

+5V SUPPLY

OUTPUT

+5V SUPPLY

ANALOG

INPUT

+5V SUPPLY

ANALOG
OUTPUT

HOLD

SAMPLE

–5V SUPPLY

–5V SUPPLY

SHM-14

SAMPLE / HOLD

0.1µF

0.1µF

0.1µF

0.1µF

0.1µF

0.1µF

51Ω

130Ω

82Ω

130Ω

82Ω

2

7

10

4

19

18

17, 20

15

14, 16

12

13

11

13

14

5

6, 7, 8, 9, 10

20

16, 17, 18, 19

11, 12, 15
GROUND

1, 2, 3, 4

GROUND PLANE

Evaluation Board
for CLCC-20 Version

Refer to Table 1. for optional
HOLD capacitor values.

C

HOLD

4

SHM-14

® ®

1
2

3
4

6
7
8
9
10 11

12

13

20

15

16

14

19
18
17

5

0.95

(24.13)

1.10

(27.94)

0.85

(21.59)

0.100
(2.54)

INCHES

(mm)

0.43
(11)

0.13
(3.3)

0.018
(0.45)

(TOP VIEW)

1
2

3
4

6
7
8
9

10

11

12

13

20

15

16

14

19
18
17

5

C

EXT

R1

R3

R4

R5

R6

C1

C2

C3

C4

C5

C6

C7

(BOTTOM VIEW)

PLASTIC
STANDOFF

Figure 5. SHM-14 Evaluation Board Dimensions

SHM-14 Evaluation Board Connections

1 GROUND
2 GROUND
3 GROUND
4 GROUND
5 ANALOG OUTPUT
6 +5V SUPPLY
7 +5V SUPPLY
8 +5V SUPPLY

9 +5V SUPPLY
10 +5V SUPPLY
11 –5V SUPPLY
12 –5V SUPPLY
13 HOLD
14 SAMPLE
15 –5V SUPPLY
16 –5V SUPPLY
17 –5V SUPPLY
18 –5V SUPPLY
19 –5V SUPPLY
20 ANALOG INPUT

PIN FUNCTION

5

® ®

SHM-14

MECHANICAL DIMENSIONS INCHES (MM)

16

E

A

1

8

D

C B

F

G

H

K

J

L

9

INCHES MILLIMETERS

SYMBOL MIN. MAX. MIN. MAX.

A 0.402 0.412 10.21 10.46
B 0.400 0.410 10.16 10.41
C 0.292 0.299 7.40 7.60
D 0.014 0.019 0.35 0.48
E 0.0500 BSC 1.27 BSC

F 0.0039 0.0112 0.10 0.30
G 0° 8° 0° 8°
H 0.020 0.040 0.51 1.02

J 0.097 0.104 2.46 2.64
K 0.010 0.020 0.25 0.51

L 0.0091 0.0125 0.23 0.32

SOIC-16 Package

INCHES

SYMBOL MIN. MAX. MIN. MAX.

A 0.064 0.100 1.63 2.54
B 0.045 0.055 1.14 1.40
C 0.075 REF 1.91 REF
D 0.342 0.358 8.69 9.09
E 0.022 0.028 0.56 0.71
F 0.020 REF 0.51
G 0.050 BSC 1.27 BSC
H 0.040 REF 1.02

MILLIMETERS

BOTTOM VIEW

A

D

F

H

B C

E

G

(H x 45°

3 PLACES)

(F x 45°)

PIN 1 INDEX

CLCC-20 Package

MODEL NUMBER PACKAGE TEMPERATURE RANGE
SHM-14S SOIC-16 –40 to +85°C

SHM-14L CLCC-20 –40 to +85°C
SHM-14LM CLCC-20 –55 to +125°C
EVB-SHM14 Evaluation Board (with SHM-14LM)

® ®

INNOV A TION and EX CELLENCE

DATEL makes no representation that the use of its products in the circuits described herein, or the use of other technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein
do not imply the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without notice. The DATEL logo is a registered DATEL, Inc. trademark.

DS-0311 10/96

Contact DATEL for availability of high reliability models.

ORDERING INFORMATION

DATEL, Inc. 11 Cabot Boulevard, Mansfield, MA 02048-1151
Tel: (508) 339-3000 (800) 233-2765 Fax: (508) 339-6356
Internet: www.datel.com E-mail:sales@datel.com
Data Sheet Fax Back: (508) 261-2857

DATEL (UK) LTD. Tadley, England Tel: (01256)-880444
DATEL S.A.R.L. Montigny Le Bretonneux, France Tel: 1-34-60-01-01
DATEL GmbH München, Germany Tel: 89-544334-0
DATEL KK Tokyo, Japan Tel: 3-3779-1031, Osaka Tel: 6-354-2025

ISO 9001

ISO

9001

REGISTERED