MODEL

LCR821

LCR819

LCR829

LCR817

LCR827

LCR816

LCR826


Display

240 x 128 dot matrix CCFL back light LCD


Test Frequency

12Hz~200kHz
(504 steps) 
12Hz~100kHz
(503 steps) 
12Hz~10kHz
(489 steps) 
100Hz~2kHz
(245 steps) 

Basic Accuracy

0.05%

0.05%

0.1%

0.05%

0.1%

0.05%

0.1%


Test Mode

R/Q, C/D, C/R
L/Q, Z/θ , L/R 
R/Q, C/D, C/R,L/Q

R/Q, C/D, C/R,L/Q

R/Q, C/D, C/R,L/Q


Memory

100 memory blocks totally


DC BIAS

Internal

2V

2V

2V

2V


External

0 ~35V

0 ~30V

0 ~30V

0 ~30V


Interface

RS232

Std.

Opt.


Opt.


Opt.


Handle



Std.


Std.


Std.

TEST FREQUENCY  
12Hz ~ 200kHz (504 steps) for LCR821 12Hz ~ 100kHz(503 steps) for LCR819/829 12Hz ~ 10kHz(489 steps) for LCR817/827 100Hz ~2kHz (245 steps) for LCR816/826 

BASIC ACCURACY (*)  
0.05% for basic accuracy for LCR821/819/817 0.1% for basic accuracy for LCR829/827/826/816 

TEST SPEED  
68ms for LCR821/819/817/816, 34ms for LCR829/827/826  
TEST SIGNAL LEVELS  
5mV ~ 1.275Vrms ( 5mV/step ) for LCR821/819/829/817/827 0.1V ~ 1.275Vrms ( 5mV/step )for LCR816/826 

DC BIAS  
Internal  2V  
External  0 ~ 35V for LCR821; 0 ~ 30V for LCR819/829/817/827/816/826  
DISPLAY RANGE (**)  
Resistance  R 0.00001Ω ~ 99999kΩ  
Capacitance  C 0.00001pF ~ 99999uF  
Inductance  L 0.00001mH ~ 99999H  
Quality Factor  Q 0.0001 ~ 9999  
Dissipation Factor  D 0.0001 ~ 9999  
Impedance  Z 0.00001Ω ~ 99999kΩ for LCR821  
Phase Angle (Degree)  θ 180.00° ~ 180.00° for LCR821  
TEST MODE  
R/Q, C/D, C/R, L/Q, Z/θ, L/R for LCR821 only 

EQUIVALENT CIRCUIT  
Parallel or series selectable  
MEMORY  
100 memory blocks total  
AVERAGE  
1 to 255 times  
TEST SPEED MODE  
SLOW, MEDIUM and FAST  
DISPLAY MODE  
Value, △, △%  
DISPLAY  
240 x 128 dot matrix C.C.F.L back light LCD  
INTERFACE  
Standard : RS232C for LCR821 Standard : Handler Interface for LCR829/827/826 Optional : RS232C Interface for LCR819/817/816 (Including LCRViewer Software for RS232C interface) 

POWER SOURCE  
Line Voltage Range  100V  240V, 4763Hz/400Hz  
DIMENSIONS & WEIGHT  
330(W) x 149(H) x 437(D)mm Approx. 5.5kg 
(*)：Basic accuracy varies with the speed, frequency, AC signal level and impedance of the device under test.
(**)：Display range refers to the range of measurement values that can be displayed on the screen. Please see the LCR800 user manual for the effective measurement ranges.
Model Name  Description 
LCR821  200kHz High Precision LCR Meter with RS232C Interface 
LCR819  100kHz High Precision LCR Meter 
LCR829  100kHz High Precision LCR Meter with Handler Interface 
LCR817  10kHz High Precision LCR Meter 
LCR827  10kHz High Precision LCR Meter with Handler Interface 
LCR816  2kHz High Precision LCR Meter 
LCR826  2kHz High Precision LCR Meter with Handler Interface 
PC Software  1.3  en  3.3 MB  2017/03/17  
LCRViewer For LCR816 / LCR817 / LCR819 / LCR821 (Vista supported, but not for Win7 64bit)  
Datasheet  2  en  225.9 KB  2017/03/17  
LCR800 Series Product Information  
The Basic accuracy of LCR meters is the best accuracy you can get when testing in best conditions. Basic accuracy does not add the error from extra factors like fixtures or cables and under the optimum test signal, frequencies, highest accuracy setting or slowest measurement speed and impedance of the DUT. Therefore, it is really important to know the actual accuracy of the measurement you want to perform in real world. Measurement range, speed, test frequency and voltage level are the factors we need to consider.
Moreover, there are additional errors including dissipation factor (D) of the DUT, internal source impedance and ranges of the instrument, which all affect accuracy. The accuracy formulas will take into account each of the factors affecting accuracy.
There are two possible reasons that Short Zeroing can fail.
The LCR800 series RS232 configuration as below:
RS232 configuration  Connector  DB9, Male 
Baud rate  38400 (default)  
 Data bit  8 
 Parity  None 
 Stop bit  1 
 Flow control  None 
The LCR06A test fixture is very sensitive and thus must be used correctly.
The LCR821 can provide 504 different frequencies with a 5 digit resolution including decimal places. Any frequency can be keyed from the number pad, and the closest available frequency (of 504) will be selected automatically. The LCR818/829 has 503 different frequencies and the LCR817/827 and LCR816/826 have 489 and 245, respectively.
To calculate the different possible frequencies, use the tables below.
LCR821  Frequency range  Formula  n range  
0.012  To  0.23077kHz  3kHz/n  13 to 250  
0.23438  To  15kHz  60kHz/n  4 to 256  
15.385  To  200kHz  200kHz/n  1 to 13  
LCR819/829  Frequency range  Formula  n range  
0.012  To  0.23077kHz  3kHz/n  13 to 250  
0.23438  To  15kHz  60kHz/n  4 to 256  
15.385  To  100kHz  200kHz/n  2 to 13  
LCR817/827  Frequency range  Formula  n range  
0.012  To  0.23077kHz  3kHz/n  13 to 250  
0.23438  To  10kHz  60kHz/n  6 to 256  
LCR816/826  Frequency range  Formula  n range  
0.10000  To  0.23077kHz  3kHz/n  13 to 30  
0.23438  To  2kHz  60kHz/n  30 to 256 
Note: Some of combinations only appear on specific model
In general, two measurement items, primary and secondary, are combined in a single measurement. The following table shows the available combinations.
●:Available, ─:Not available
1st measurement  2nd measurement  Circuit model  
 Q  D  R  θ  Series  Parallel 
Capacitance (C)  ─  ●  ●  ─  ●  ● 
Inductance (L)  ●  ─  ●  ─  ●  ● 
Impedance (Z)  ─  ─  ─  ●  ●  ─ 
Resistance (R)  ●  ─  ─  ─  ●  ● 
The LCR800 series accept the following as the message terminator whilst giving a command.
Message terminators  <NL^END> Or <NL^J>  New line or ASCII line feed character (HEX 0A) 
 <CR^M>  Carry return character (Hex 0D) 