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      Click model number for photo



  4418 <4418.jpg> 8-INPUT SPECTROSCOPY GRADE CHARGE INTEGRATING ADC

    * 8 Input Channels in a Single-Width CAMAC Module
    * Spectroscopy Grade Performance with Excellent Integral and
      Differential Linearity
    * High Speed ECL Readout Logic
    * Fast Conversion: 3 µsec for Every Valid Input Channel 


    FOR HIGH RESOLUTION CHARGE MEASUREMENTS


The Silena Model 4418Q Charge Analog-to-Digital Converter has 8 channels
of high resolution data acquisition. The 4418Q is compatible with LeCroy
FERA and ECLbus systems.

The 4418Q is highly stable, offering superior integral and differential
linearity performance, as well as fast con version and readout
capabilities.

The Model 4418Q has been designed for use in a variety of experimental
situations that employ many Charge ADC channels to perform high
resolution, high stability data acquisition.


    FUNCTIONAL DESCRIPTION
    ------------------------------------------------------------------------

The Model 4418Q is an 8-channel charge integrating analog-to-digital
converter. The charge of each individual input current pulse which
occurs within a given gate interval is collected and digitized by the
4418Q. The gate interval duration may range from 20 nsec to 2 µsec (10
µsec on request), and is controlled by the duration of a gate command
pulse, which is common to the 8 channels of the module. The circuit can
work on signal sources of any impedance level, from the high values of
PMT anode outputs to the low values of preamplifier outputs.

The 4418Q also features DC baseline cancellation, true differential
inputs, and low noise.

The circuit can work with any desired input impedance. The standard
value is 50 ohm input for coaxial cable connections, but other
arrangements may be supplied (i.e., 100 ohm input suitable for twisted
pair connections). The circuit has been designed and tested for
performance at a level suitable for high resolution spectroscopy.

In addition, the 4418Q has an auxiliary discriminator which can be set
automatically. The discriminator itself gener ates a gate signal for the
ADC.

The digitized data are available first on the front-panel ECL port and
then on the CAMAC dataway, giving the user two readout options. All zero
or zero-and-overflow data words may be suppressed to provide data
compression.

The front-panel bus system includes the protocol necessary to allow high
speed sequential readout to the LeCroy series of ECLine Data Handler
Modules and to the Model 4302, Dual Port Fast Memory. The same bus can
provide interfacing and data storage in FASTBUS where data can be
received by the Model 1892, FASTBUS Memory, or in VME to Memory Model
1190 (request application notes AN-4001, AN-4004A and AN-39, and
publication P-2 for examples).


    SPECIFICATIONS
    ------------------------------------------------------------------------


      Model 4418Q Charge ADC


Analog Inputs: 8. Negative pulses, any source impedance. The linear
operating range does not depend on the DC baseline level (within the
above specified range) but only on the pulse peak value: maximum
pulse-peak value -1 V (i.e., -10 mA on 100 ohm). Extended linear range
available by reducing the input sensitivity and the corre spondingly
higher full scale value in the charge measurement. Minimum pulse
detectable by the circuit providing the DC cancellation: 2 mV with
normal input linear range 0.2% of full scale value with extended input
voltage range.

Connector: 10x2-pin front-panel connector (ANSLEY 609-2007). The upper 8
pins of the left row are negative input signals. The upper 8 pins of the
right row are signal returns. The last 2+2 pins are connected to ground
(may be used to connect the twisted pair shield to ground).

Type: True differential, suited to work with negative signals and
positive and negative baseline and common mode noise and interferences.
Single-ended internally selectable by jumper.

Coupling: DC.

Impedance: 50 ohm standard; other values available on request.

Signal Baseline: The DC level of the input signal baseline may have any
value in the ±0.2 V range (i.e., ±5 mA on 100 ohm), as the circuit
provides internal cancellation of the DC level within this range.

Common Mode Range: ±0.5 V.

Common Mode Rejection: CMRR > 80 dB from DC to 100 Hz. CMRR > 60 dB from
100 Hz to 50 kHz.

System Noise as a Function of Gate Width:

10 nsec to 0.5 µsec - not detectable.
1 µsec is -0.09 pC FWHM
2 µsec is -0.12 pC FWHM
5 µsec is -0.3 pC FWHM
10 µsec is -0.6 pC FWHM

Input Protection: ±25 V from 1 µsec transients (clamping DIODES from GND
and -3 V).

Crosstalk: 66 dB.



      DC Input Cancellation


Type: Circuit measuring the mean level of the input baseline and feeding
back an opposite continuous level. Exclusion of contributions to the
measured mean level from intervals occupied by input pulses sensed by
the auxiliary threshold or marked by signals applied to the "hold" input.

Count Rate Shift: Not detectable up to 150 kHz.

Auxiliary Threshold Setting: Under CAMAC control, (8-bit resolution)
common to the 8 input channels of the module.

E Input Lemo Connector: As a logic signal is applied, the measurement of
the mean input level is suspended and the cancelling level feed back is
held constant for the duration of the logical signal. The maximum
allowed duty cycle of the "hold" logical signal is 50%, with duration of
the time intervals between adjacent "hold" signals of at least 100 µsec.


      Integrator


Linear Range: Normal 0 to 256 pC, referred to input current signals on
100 ohm. Extended range available with correspondingly reduced input
sensitivity, on request.

Integral Linearity: Typically ±0.025% of full scale, better than ±0.05%;
in any case over 95% of the dynamic range.

Differential Linearity: Typically ±0.5% better than ±1%; in any case
over 95% of the dynamic range.

Temperature Dependence: Typically ±0.005% of full scale value/°C, i.e.,
±12.5 fC/°C for the normal range, independent of the gate width.

Conversion Gain: Typically ±100 ppm/°C independent of the gate width.


      ADC


Resolution: 3840 channels (4096 minus 256 channels for sliding scale),
corresponding to 62.5 fC/channel in the normal integration range.

Conversion Time: 3 µsec for every valid input channel.

System Busy Time with Zero Suppression:
Variable as a function of the number of valid channels.
Valid Channel: 4 µsec.
Channel Without Signal ln or Outside the Preselected Window (LLD-ULD):
1.1 µsec.
Total Busy Time: BTCh 1 + BTCh 2 + ... BT Ch 8 + 1 µsec.

System Busy Time without Zero Suppression: Fixed 33 µsec.

DC Offset Control: ±3% of full scale value, CAMAC control 8 bits.

Selection of Acceptable Analog Inputs: By means of separate lower and
upper level discriminators for each channel under CAMAC control with
8-bit resolution. LLD from 0 to 10% of dynamic range. ULD from 100 to
85% of dynamic range.


      STATUS WORD REGISTER FORMAT

R1-R8 (VSN): Logical address of module: index source for sequential
readout with zero suppression.

R10 (SUB): Channel Subaddress Enable (enabled when SUB = 0).

R11 (EEN): ECL Readout Enable. EEN = 1 ECL Readout. EEN = 0 CAMAC Readout.

R12 (OVF): Overflow indication Enable (enabled when OVF = 0).

R13 (CCE): Acquisition and Readout Control.

R14 (CSR):

- With zero suppression (sequential readout) CSR = 1 and CCE = 1.
- Without zero suppression (sequential readout) CSR = 1 and CCE = 0.
- Addressed readout (without zero suppression) CSR = 0 and CCE = X.

R15 (CLE): CAMAC LAM Enable (enabled when CLE = 1).


      Command Bus


Connector: 8x2-pin front-panel connector. The input matching resistors
and output pull-down resistors may be removed to achieve high input and
output impedances. When these resistors are mounted, the associated LED
indicator (PD ON) is illuminated.

Input Level: Differential ECL.

Impedance: 100 ohm differential.

Output Level: Differential ECL (into 100 ohm differential).

Gate Input (GTE):

    * Model 4418Q - Common gate for all analog inputs. Must precede all
      analog inputs by at least 20 nsec. 


Gate Width: 20 nsec to 2 µsec standard, 10 µsec optional.

Clear Input: Common for all analog and digital logic. Pulse width 50
nsec. The module is ready to process a new event after 1.2 µsec.

Request Output (REQ): Indicates that the module is ready to send data to
the ECL DATA BUS. The REQ signal is generated at the end of conversion
if the bit related to ECL READOUT in the Status Register has been set.

Write Strobe Output (WST): Indicates the time period during which the
data present in the ECL Data bus can be stored in the external memory.
WST is generated in a minimum of 10 nsec after the data is ready. Its
width is higher than 40 nsec. During the entire WST pulse, the ECL Data
Bus data is maintained stable.

Write Acknowledge Input (WAK): This input receives the acknowledge
signal indicating that the data present on the ECL bus has been loaded
into memory and the next data word may be sent. The next WST signal is
generated at least 50 nsec after the WAK signal. Minimum WAK width must
be 30 nsec.

Busy Output (BSY): This output is set to the "1" state 1 µsec after the
end of the GATE signal and is held to this state until after the end of
the readout cycle (ECL Readout or CAMAC Readout). The BUSY state may be
reset only by sending a CLEAR signal via CAMAC or via ECL BUS (CLR). The
ADC is ready to start a new conversion 1.2 µsec after the end of the
BUSY state.


      ECL PORT ENABLE/PASS


Readout Enable Input (REN): 1x2-pin panel connector. The REN signal
indicates to the module that it can take control of the ECL Data Bus;
REN must be maintained during the entire readout time. The signal
enables the ECL Data Bus, WST Output and WAK input if the module is
ready for data transfer (REQ output ON).

Input Level: Differential ECL.

Input Impedance: 100 ohm differential.

Pass Output (PAS): 1x2-pin front-panel connector. Indicates that the
module is not ready to transfer data present on the ECL Data Bus or it
has finished data transfer. The PASS output signal is generated by the
REN line in the absence of the REQ internal command or, if this command
is present, at the end of data readout. The transit time between REN and
PASS output is typically 3 nsec if the module does not include data
readout capabilities.

Output Level: ECL differential (into 100 ohm differential).


      ECL PORT OUTPUT


Connector: 17x2-pin front-panel connector (ANSLEY 609-3407). The last
two pins are not connected.

Output Level: Differential ECL level (into 100 ohm differential). The
pull-down resistors must be removed for high impedance outputs. When
these resistors are mounted, the associated LED indicator (PD ON) is
illumi nated.

Data Word Size: 16 bits.

Readout Mode: Sequential.

Max Readout Frequency: 8 MHz.


    CAMAC COMMANDS
    ------------------------------------------------------------------------


      CAMAC COMMANDS


Z: Initialize; clears the module and the Status Register.

C: Clears the module; does not clear the Status Register and Memory.

I: Inhibits the front-panel GATE during CAMAC inhibit command.

X: X response is generated for all valid functions.

Q: Q response is generated when the function can be executed.

L: LAM (Look-at-Me) is set after the end of conversion, if it was
enabled, with CAMAC Readout enabled.


      CAMAC FUNCTION CODES


F(0)·A(0) or F(2)·A(0): Reads Data: a) With zero suppression (CSR = 1
CCE = 1). b) Without zero suppression (CSR = 1 CCE = 0).
Note: CSR and CCE are Status Word Bits (see Status Word).

F(0)·A(0-7) or F(2)·A(0-7): Reads Data: Addressed readout (CSR = 0 CCE =
X).

F(0)·A(14) or F(2)·A(14): Reads Header Word.

F(0)·A(15): Reads Pattern Word.

F(2)·A(15): Reads Pattern Word and clears LAM.

F(1)·A(0-7): Reads Threshold Memory (Upper Threshold - ULD).

F(1)·A(8-15): Reads Threshold Memory (Lower Threshold - LLD).

F(4)·A(0-7): Reads Offset Memory.

F(4)·A(9): Reads Common Threshold.

F(4)·A(14): Reads Status Word Register.

Click here for chart <4418V-1.gif>

F8·A(0): Tests LAM. Q = 1 if LAM is present.

F9·A(0): Clears the Module.

F10·A(0): Clears LAM and Clears Single Channel Mode.

F16·A(0-7): Single Channel mode (Autotrigger). For 3341 only.

F17·A(0-7): Writes Threshold Memory (Upper Threshold - ULD).

F17·A(8-15): Writes Threshold Memory (Lower Threshold - LLD).

F20·A(0-7): Writes Offset Memory.

F20·A(9): Writes Common Threshold. For 3341 and 3351 only.

F20·A(14): Writes Status Word.

F25·A(0): Test Function.


    READOUT FORMAT
    ------------------------------------------------------------------------

Note: EEN, CSR and CCE are Status Word bits (see Status Word).

1) With zero suppression (sequential readout):

CSR = 1 CCE = 1
EEN = 1 ECL Port Readout
EEN = 0 CAMAC Readout

Click here for diagram <4418V-2.gif>

VSN: Virtual Station Number; loaded in the associated Memory.

VDC: Number of Valid Data following Pattern Word (from 1 to 8).

PW: Valid Data View: R1 is referred to Channel 0; R8 is referred to
Channel 7.

OVF: Overflow Indication; enabled with OVF = 0 (Status Word bit).

SUB: Channel Subaddress, enabled with SUB = 0 (Status Word bit).

DATA: 12-bit Output Data.

There is sequential readout. CAMAC Readout function F(0)·A(0) or F(2)·A(0).

2) Without zero suppression (sequential readout):

CSR = 1 CCE = 0
EEN = 1 ECL Port Readout
EEN = 0 CAMAC Readout

There is always sequential readout of 8 words.

OVF: Overflow Indication; enabled with OVF = 0 (Status Word bit).

SUB: Channel Subaddress, enabled with SUB = 0 (Status Word bit).

Click here for diagram <4418V-3.gif>

3) CAMAC Addressed Readout:

CSR = 0 CCE = Indifferent
EEN = 0 Only CAMAC Readout

There is CAMAC Addressed Readout with F(0)·A(0-7) or F(2)·A(0-7)
functions. F(2)·A(7) clears the module during S2. Header can be read out
with F(0)·A(14) or F(2)·A(14).

Pattern Word can be readout with F(0)·A(15) or F(2)·A(15).

OVF: Overflow Indication; enabled with OVF = 0 (Status Word bit).

SUB: Channel Subaddress, enabled with SUB = 0 (Status Word bit).

Click here for diagram <4418V-4.gif>

Simplified block diagram <4418bd.gif> of the Models 4418Q, 4418V and
4418T. Note - shaded area included in the ADC modules only.



      General


Packaging: RF-shielding 1-width CAMAC module.

Power Requirements: Click here for Table <4418tb1.htm>

Note: When all output pull-down and input matching resistors are
removed, the current at -6 V is reduced to:

4418Q: 1.85 A
4418V: 1.4 A
4418T: 1.45 A

Copyright© October 1997. Silena is a registered trademark of Silena
International SpA. All rights reserved. Information in this publication
supersedes all earlier versions.


© 1997 Silena International Spa


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